diff --git a/.github/ISSUE_TEMPLATE/config.yml b/.github/ISSUE_TEMPLATE/config.yml index d8c04382..03659213 100644 --- a/.github/ISSUE_TEMPLATE/config.yml +++ b/.github/ISSUE_TEMPLATE/config.yml @@ -3,3 +3,6 @@ contact_links: - name: PyPSA Mailing List url: https://groups.google.com/forum/#!forum/pypsa about: Please ask and answer general usage questions here. +- name: Stackoverflow + url: https://stackoverflow.com/questions/tagged/pypsa + about: Please ask and answer code-related questions here. diff --git a/.github/workflows/ci.yaml b/.github/workflows/ci.yaml index f0cdfca1..c2be3909 100644 --- a/.github/workflows/ci.yaml +++ b/.github/workflows/ci.yaml @@ -19,7 +19,6 @@ on: - cron: "0 5 * * TUE" env: - CONDA_CACHE_NUMBER: 1 # Change this value to manually reset the environment cache DATA_CACHE_NUMBER: 2 jobs: @@ -27,22 +26,12 @@ jobs: strategy: fail-fast: false + max-parallel: 3 matrix: - include: - # Matrix required to handle caching with Mambaforge - - os: ubuntu-latest - label: ubuntu-latest - prefix: /usr/share/miniconda3/envs/pypsa-eur - - - os: macos-latest - label: macos-latest - prefix: /Users/runner/miniconda3/envs/pypsa-eur - - - os: windows-latest - label: windows-latest - prefix: C:\Miniconda3\envs\pypsa-eur - - name: ${{ matrix.label }} + os: + - ubuntu-latest + - macos-latest + - windows-latest runs-on: ${{ matrix.os }} @@ -60,24 +49,25 @@ jobs: - name: Add solver to environment run: | echo -e "- glpk\n- ipopt<3.13.3" >> envs/environment.yaml - if: ${{ matrix.label }} == 'windows-latest' + if: ${{ matrix.os }} == 'windows-latest' - name: Add solver to environment run: | echo -e "- glpk\n- ipopt" >> envs/environment.yaml - if: ${{ matrix.label }} != 'windows-latest' + if: ${{ matrix.os }} != 'windows-latest' - - name: Setup Mambaforge - uses: conda-incubator/setup-miniconda@v2 + - name: Setup micromamba + uses: mamba-org/setup-micromamba@v1 with: - miniforge-variant: Mambaforge - miniforge-version: latest - activate-environment: pypsa-eur - use-mamba: true + micromamba-version: latest + environment-file: envs/environment.yaml + log-level: debug + init-shell: bash + cache-environment: true + cache-downloads: true - name: Set cache dates run: | - echo "DATE=$(date +'%Y%m%d')" >> $GITHUB_ENV echo "WEEK=$(date +'%Y%U')" >> $GITHUB_ENV - name: Cache data and cutouts folders @@ -88,21 +78,8 @@ jobs: cutouts key: data-cutouts-${{ env.WEEK }}-${{ env.DATA_CACHE_NUMBER }} - - name: Create environment cache - uses: actions/cache@v3 - id: cache - with: - path: ${{ matrix.prefix }} - key: ${{ matrix.label }}-conda-${{ env.DATE }}-${{ env.CONDA_CACHE_NUMBER }} - - - name: Update environment due to outdated or unavailable cache - run: mamba env update -n pypsa-eur -f envs/environment.yaml - if: steps.cache.outputs.cache-hit != 'true' - - name: Test snakemake workflow run: | - conda activate pypsa-eur - conda list snakemake -call solve_elec_networks --configfile config/test/config.electricity.yaml --rerun-triggers=mtime snakemake -call all --configfile config/test/config.overnight.yaml --rerun-triggers=mtime snakemake -call all --configfile config/test/config.myopic.yaml --rerun-triggers=mtime diff --git a/.pre-commit-config.yaml b/.pre-commit-config.yaml index 03dffc2a..006673b9 100644 --- a/.pre-commit-config.yaml +++ b/.pre-commit-config.yaml @@ -30,7 +30,7 @@ repos: # Find common spelling mistakes in comments and docstrings - repo: https://github.com/codespell-project/codespell - rev: v2.2.4 + rev: v2.2.5 hooks: - id: codespell args: ['--ignore-regex="(\b[A-Z]+\b)"', '--ignore-words-list=fom,appartment,bage,ore,setis,tabacco,berfore'] # Ignore capital case words, e.g. country codes @@ -39,7 +39,7 @@ repos: # Make docstrings PEP 257 compliant - repo: https://github.com/PyCQA/docformatter - rev: v1.6.3 + rev: v1.7.5 hooks: - id: docformatter args: ["--in-place", "--make-summary-multi-line", "--pre-summary-newline"] @@ -51,7 +51,7 @@ repos: # Formatting with "black" coding style - repo: https://github.com/psf/black - rev: 23.3.0 + rev: 23.7.0 hooks: # Format Python files - id: black @@ -67,7 +67,7 @@ repos: # Do YAML formatting (before the linter checks it for misses) - repo: https://github.com/macisamuele/language-formatters-pre-commit-hooks - rev: v2.8.0 + rev: v2.10.0 hooks: - id: pretty-format-yaml args: [--autofix, --indent, "2", --preserve-quotes] @@ -87,6 +87,6 @@ repos: # Check for FSFE REUSE compliance (licensing) - repo: https://github.com/fsfe/reuse-tool - rev: v1.1.2 + rev: v2.1.0 hooks: - id: reuse diff --git a/.readthedocs.yml b/.readthedocs.yml index 3d7a86b2..900dba1e 100644 --- a/.readthedocs.yml +++ b/.readthedocs.yml @@ -4,8 +4,14 @@ version: 2 +build: + os: ubuntu-22.04 + tools: + python: "3.11" + apt_packages: + - graphviz + python: - version: 3.8 install: - requirements: doc/requirements.txt - system_packages: true + system_packages: false diff --git a/README.md b/README.md index 2973fa33..79cdfa65 100644 --- a/README.md +++ b/README.md @@ -11,6 +11,7 @@ SPDX-License-Identifier: CC-BY-4.0 [![Zenodo PyPSA-Eur-Sec](https://zenodo.org/badge/DOI/10.5281/zenodo.3938042.svg)](https://doi.org/10.5281/zenodo.3938042) [![Snakemake](https://img.shields.io/badge/snakemake-≥5.0.0-brightgreen.svg?style=flat)](https://snakemake.readthedocs.io) [![REUSE status](https://api.reuse.software/badge/github.com/pypsa/pypsa-eur)](https://api.reuse.software/info/github.com/pypsa/pypsa-eur) +[![Stack Exchange questions](https://img.shields.io/stackexchange/stackoverflow/t/pypsa)](https://stackoverflow.com/questions/tagged/pypsa) # PyPSA-Eur: A Sector-Coupled Open Optimisation Model of the European Energy System @@ -90,6 +91,14 @@ to 50-200 nodes. Already-built versions of the model can be found in the accompanying [Zenodo repository](https://doi.org/10.5281/zenodo.3601881). + +# Contributing and Support +We strongly welcome anyone interested in contributing to this project. If you have any ideas, suggestions or encounter problems, feel invited to file issues or make pull requests on GitHub. +- In case of code-related **questions**, please post on [stack overflow](https://stackoverflow.com/questions/tagged/pypsa). +- For non-programming related and more general questions please refer to the [mailing list](https://groups.google.com/group/pypsa). +- To **discuss** with other PyPSA users, organise projects, share news, and get in touch with the community you can use the [discord server](https://discord.com/invite/AnuJBk23FU). +- For **bugs and feature requests**, please use the [PyPSA-Eur Github Issues page](https://github.com/PyPSA/pypsa-eur/issues). + # Licence The code in PyPSA-Eur is released as free software under the diff --git a/config/config.default.yaml b/config/config.default.yaml index 9d7b8a49..926ad76f 100644 --- a/config/config.default.yaml +++ b/config/config.default.yaml @@ -2,6 +2,7 @@ # # SPDX-License-Identifier: CC0-1.0 +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#top-level-configuration version: 0.8.0 tutorial: false @@ -9,65 +10,52 @@ logging: level: INFO format: '%(levelname)s:%(name)s:%(message)s' +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#run run: - name: "" # use this to keep track of runs with different settings - disable_progressbar: false # set to true to disable the progressbar - shared_resources: false # set to true to share the default resources across runs - shared_cutouts: true # set to true to share the default cutout(s) across runs + name: "" + disable_progressbar: false + shared_resources: false + shared_cutouts: true -foresight: overnight # options are overnight, myopic, perfect (perfect is not yet implemented) -# if you use myopic or perfect foresight, set the investment years in "planning_horizons" below +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#foresight +foresight: overnight +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#scenario +# Wildcard docs in https://pypsa-eur.readthedocs.io/en/latest/wildcards.html scenario: weather_year: [''] # for backwards compatibility simpl: - '' - ll: # allowed transmission line volume expansion, can be any float >= 1.0 with a prefix v|c (today) or "copt" - - v1.0 + ll: - v1.5 - clusters: # number of nodes in Europe, any integer between 37 (1 node per country-zone) and several hundred + clusters: - 37 - 128 - 256 - 512 - 1024 - opts: # only relevant for PyPSA-Eur + opts: - '' - sector_opts: # this is where the main scenario settings are + sector_opts: - Co2L0-3H-T-H-B-I-A-solar+p3-dist1 - # to really understand the options here, look in scripts/prepare_sector_network.py - # Co2Lx specifies the CO2 target in x% of the 1990 values; default will give default (5%); - # Co2L0p25 will give 25% CO2 emissions; Co2Lm0p05 will give 5% negative emissions - # xH is the temporal resolution; 3H is 3-hourly, i.e. one snapshot every 3 hours - # single letters are sectors: T for land transport, H for building heating, - # B for biomass supply, I for industry, shipping and aviation, - # A for agriculture, forestry and fishing - # solar+c0.5 reduces the capital cost of solar to 50\% of reference value - # solar+p3 multiplies the available installable potential by factor 3 - # seq400 sets the potential of CO2 sequestration to 400 Mt CO2 per year - # dist{n} includes distribution grids with investment cost of n times cost in data/costs.csv - # for myopic/perfect foresight cb states the carbon budget in GtCO2 (cumulative - # emissions throughout the transition path in the timeframe determined by the - # planning_horizons), be:beta decay; ex:exponential decay - # cb40ex0 distributes a carbon budget of 40 GtCO2 following an exponential - # decay with initial growth rate 0 - planning_horizons: # investment years for myopic and perfect; for overnight, year of cost assumptions can be different and is defined under 'costs' - - 2050 - # for example, set to + planning_horizons: # - 2020 # - 2030 # - 2040 - # - 2050 - # for myopic foresight + - 2050 +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#countries countries: ['AL', 'AT', 'BA', 'BE', 'BG', 'CH', 'CZ', 'DE', 'DK', 'EE', 'ES', 'FI', 'FR', 'GB', 'GR', 'HR', 'HU', 'IE', 'IT', 'LT', 'LU', 'LV', 'ME', 'MK', 'NL', 'NO', 'PL', 'PT', 'RO', 'RS', 'SE', 'SI', 'SK'] +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#snapshots snapshots: start: "2013-01-01" end: "2014-01-01" - inclusive: 'left' # include start, not end + inclusive: 'left' +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#enable enable: + retrieve: auto prepare_links_p_nom: false retrieve_databundle: true retrieve_sector_databundle: true @@ -81,9 +69,7 @@ enable: custom_busmap: false drop_leap_days: true -# CO2 budget as a fraction of 1990 emissions -# this is over-ridden if CO2Lx is set in sector_opts -# this is also over-ridden if cb is set in sector_opts +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#co2-budget co2_budget: 2020: 0.701 2025: 0.524 @@ -93,18 +79,19 @@ co2_budget: 2045: 0.032 2050: 0.000 +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#electricity electricity: voltages: [220., 300., 380.] - gaslimit: false # global gas usage limit of X MWh_th - co2limit: 7.75e+7 # 0.05 * 3.1e9*0.5 + gaslimit: false + co2limit: 7.75e+7 co2base: 1.487e+9 agg_p_nom_limits: data/agg_p_nom_minmax.csv - operational_reserve: # like https://genxproject.github.io/GenX/dev/core/#Reserves + operational_reserve: activate: false - epsilon_load: 0.02 # share of total load - epsilon_vres: 0.02 # share of total renewable supply - contingency: 4000 # fixed capacity in MW + epsilon_load: 0.02 + epsilon_vres: 0.02 + contingency: 4000 max_hours: battery: 6 @@ -116,9 +103,7 @@ electricity: Store: [battery, H2] Link: [] # H2 pipeline - # use pandas query strings here, e.g. Country not in ['Germany'] powerplants_filter: (DateOut >= 2022 or DateOut != DateOut) - # use pandas query strings here, e.g. Country in ['Germany'] custom_powerplants: false conventional_carriers: [nuclear, oil, OCGT, CCGT, coal, lignite, geothermal, biomass] @@ -126,25 +111,19 @@ electricity: estimate_renewable_capacities: enable: true - # Add capacities from OPSD data from_opsd: true - # Renewable capacities are based on existing capacities reported by IRENA year: 2020 - # Artificially limit maximum capacities to factor * (IRENA capacities), - # i.e. 110% of 's capacities => expansion_limit: 1.1 - # false: Use estimated renewable potentials determine by the workflow expansion_limit: false technology_mapping: - # Wind is the Fueltype in powerplantmatching, onwind, offwind-{ac,dc} the carrier in PyPSA-Eur Offshore: [offwind-ac, offwind-dc] Onshore: [onwind] PV: [solar] - +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#atlite atlite: default_cutout: europe-2013-era5 nprocesses: 4 - show_progress: false # false saves time + show_progress: false cutouts: # use 'base' to determine geographical bounds and time span from config # base: @@ -167,20 +146,16 @@ atlite: sarah_dir: features: [influx, temperature] - +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#renewable renewable: onwind: cutout: europe-2013-era5 resource: method: wind turbine: Vestas_V112_3MW - capacity_per_sqkm: 3 # ScholzPhd Tab 4.3.1: 10MW/km^2 and assuming 30% fraction of the already restricted - # area is available for installation of wind generators due to competing land use and likely public - # acceptance issues. + capacity_per_sqkm: 3 # correction_factor: 0.93 corine: - # Scholz, Y. (2012). Renewable energy based electricity supply at low costs - # development of the REMix model and application for Europe. ( p.42 / p.28) grid_codes: [12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 31, 32] distance: 1000 distance_grid_codes: [1, 2, 3, 4, 5, 6] @@ -193,13 +168,8 @@ renewable: resource: method: wind turbine: NREL_ReferenceTurbine_5MW_offshore - capacity_per_sqkm: 2 # ScholzPhd Tab 4.3.1: 10MW/km^2 and assuming 20% fraction of the already restricted - # area is available for installation of wind generators due to competing land use and likely public - # acceptance issues. + capacity_per_sqkm: 2 correction_factor: 0.8855 - # proxy for wake losses - # from 10.1016/j.energy.2018.08.153 - # until done more rigorously in #153 corine: [44, 255] natura: true ship_threshold: 400 @@ -213,13 +183,8 @@ renewable: resource: method: wind turbine: NREL_ReferenceTurbine_5MW_offshore - capacity_per_sqkm: 2 # ScholzPhd Tab 4.3.1: 10MW/km^2 and assuming 20% fraction of the already restricted - # area is available for installation of wind generators due to competing land use and likely public - # acceptance issues. + capacity_per_sqkm: 2 correction_factor: 0.8855 - # proxy for wake losses - # from 10.1016/j.energy.2018.08.153 - # until done more rigorously in #153 corine: [44, 255] natura: true ship_threshold: 400 @@ -236,14 +201,7 @@ renewable: orientation: slope: 35. azimuth: 180. - capacity_per_sqkm: 1.7 # ScholzPhd Tab 4.3.1: 170 MW/km^2 and assuming 1% of the area can be used for solar PV panels - # Correction factor determined by comparing uncorrected area-weighted full-load hours to those - # published in Supplementary Data to - # Pietzcker, Robert Carl, et al. "Using the sun to decarbonize the power - # sector -- The economic potential of photovoltaics and concentrating solar - # power." Applied Energy 135 (2014): 704-720. - # This correction factor of 0.854337 may be in order if using reanalysis data. - # for discussion refer to https://github.com/PyPSA/pypsa-eur/pull/304 + capacity_per_sqkm: 1.7 # correction_factor: 0.854337 corine: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 26, 31, 32] natura: true @@ -260,10 +218,12 @@ renewable: eia_correct_by_capacity: false eia_approximate_missing: false +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#conventional conventional: nuclear: p_max_pu: "data/nuclear_p_max_pu.csv" # float of file name +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#lines lines: types: 220.: "Al/St 240/40 2-bundle 220.0" @@ -271,28 +231,35 @@ lines: 380.: "Al/St 240/40 4-bundle 380.0" s_max_pu: 0.7 s_nom_max: .inf + max_extension: .inf length_factor: 1.25 under_construction: 'zero' # 'zero': set capacity to zero, 'remove': remove, 'keep': with full capacity +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#links links: p_max_pu: 1.0 p_nom_max: .inf + max_extension: .inf include_tyndp: true under_construction: 'zero' # 'zero': set capacity to zero, 'remove': remove, 'keep': with full capacity +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#transformers transformers: x: 0.1 s_nom: 2000. type: '' +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#load load: - power_statistics: true # only for files from <2019; set false in order to get ENTSOE transparency data - interpolate_limit: 3 # data gaps up until this size are interpolated linearly - time_shift_for_large_gaps: 1w # data gaps up until this size are copied by copying from + power_statistics: true + interpolate_limit: 3 + time_shift_for_large_gaps: 1w manual_adjustments: true # false scaling_factor: 1.0 fixed_year: false # false or year (e.g. 2013) +# docs +# TODO: PyPSA-Eur merge issue in prepare_sector_network.py # regulate what components with which carriers are kept from PyPSA-Eur; # some technologies are removed because they are implemented differently # (e.g. battery or H2 storage) or have different year-dependent costs @@ -313,12 +280,14 @@ pypsa_eur: - hydro Store: [] +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#energy energy: energy_totals_year: 2011 base_emissions_year: 1990 eurostat_report_year: 2016 - emissions: CO2 # "CO2" or "All greenhouse gases - (CO2 equivalent)" + emissions: CO2 +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#biomass biomass: year: 2030 scenario: ENS_Med @@ -344,14 +313,14 @@ biomass: - Manure solid, liquid - Sludge - +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#solar-thermal solar_thermal: clearsky_model: simple # should be "simple" or "enhanced"? orientation: slope: 45. azimuth: 180. -# only relevant for foresight = myopic or perfect +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#existing-capacities existing_capacities: grouping_years_power: [1980, 1985, 1990, 1995, 2000, 2005, 2010, 2015, 2020, 2025, 2030] grouping_years_heat: [1980, 1985, 1990, 1995, 2000, 2005, 2010, 2015, 2019] # these should not extend 2020 @@ -362,37 +331,34 @@ existing_capacities: - oil - uranium - +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#sector sector: district_heating: - potential: 0.6 # maximum fraction of urban demand which can be supplied by district heating - # increase of today's district heating demand to potential maximum district heating share - # progress = 0 means today's district heating share, progress = 1 means maximum fraction of urban demand is supplied by district heating + potential: 0.6 progress: 2020: 0.0 2030: 0.3 2040: 0.6 2050: 1.0 district_heating_loss: 0.15 - cluster_heat_buses: false # cluster residential and service heat buses to one to save memory - bev_dsm_restriction_value: 0.75 #Set to 0 for no restriction on BEV DSM - bev_dsm_restriction_time: 7 #Time at which SOC of BEV has to be dsm_restriction_value + cluster_heat_buses: false + bev_dsm_restriction_value: 0.75 + bev_dsm_restriction_time: 7 transport_heating_deadband_upper: 20. transport_heating_deadband_lower: 15. - ICE_lower_degree_factor: 0.375 #in per cent increase in fuel consumption per degree above deadband + ICE_lower_degree_factor: 0.375 ICE_upper_degree_factor: 1.6 EV_lower_degree_factor: 0.98 EV_upper_degree_factor: 0.63 - bev_dsm: true #turns on EV battery - bev_availability: 0.5 #How many cars do smart charging - bev_energy: 0.05 #average battery size in MWh - bev_charge_efficiency: 0.9 #BEV (dis-)charging efficiency - bev_plug_to_wheel_efficiency: 0.2 #kWh/km from EPA https://www.fueleconomy.gov/feg/ for Tesla Model S - bev_charge_rate: 0.011 #3-phase charger with 11 kW + bev_dsm: true + bev_availability: 0.5 + bev_energy: 0.05 + bev_charge_efficiency: 0.9 + bev_plug_to_wheel_efficiency: 0.2 + bev_charge_rate: 0.011 bev_avail_max: 0.95 bev_avail_mean: 0.8 - v2g: true #allows feed-in to grid from EV battery - #what is not EV or FCEV is oil-fuelled ICE + v2g: true land_transport_fuel_cell_share: 2020: 0 2030: 0.05 @@ -412,12 +378,12 @@ sector: transport_internal_combustion_efficiency: 0.3 agriculture_machinery_electric_share: 0 agriculture_machinery_oil_share: 1 - agriculture_machinery_fuel_efficiency: 0.7 # fuel oil per use - agriculture_machinery_electric_efficiency: 0.3 # electricity per use - MWh_MeOH_per_MWh_H2: 0.8787 # in LHV, source: DECHEMA (2017): Low carbon energy and feedstock for the European chemical industry , pg. 64. - MWh_MeOH_per_tCO2: 4.0321 # in LHV, source: DECHEMA (2017): Low carbon energy and feedstock for the European chemical industry , pg. 64. - MWh_MeOH_per_MWh_e: 3.6907 # in LHV, source: DECHEMA (2017): Low carbon energy and feedstock for the European chemical industry , pg. 64. - shipping_hydrogen_liquefaction: false # whether to consider liquefaction costs for shipping H2 demands + agriculture_machinery_fuel_efficiency: 0.7 + agriculture_machinery_electric_efficiency: 0.3 + MWh_MeOH_per_MWh_H2: 0.8787 + MWh_MeOH_per_tCO2: 4.0321 + MWh_MeOH_per_MWh_e: 3.6907 + shipping_hydrogen_liquefaction: false shipping_hydrogen_share: 2020: 0 2030: 0 @@ -433,18 +399,14 @@ sector: 2030: 0.7 2040: 0.3 2050: 0 - shipping_methanol_efficiency: 0.46 # 10-15% higher https://www.iea-amf.org/app/webroot/files/file/Annex%20Reports/AMF_Annex_56.pdf, https://users.ugent.be/~lsileghe/documents/extended_abstract.pdf - shipping_oil_efficiency: 0.40 #For conversion of fuel oil to propulsion in 2011 - aviation_demand_factor: 1. # relative aviation demand compared to today - HVC_demand_factor: 1. # relative HVC demand compared to today - time_dep_hp_cop: true #time dependent heat pump coefficient of performance - heat_pump_sink_T: 55. # Celsius, based on DTU / large area radiators; used in build_cop_profiles.py - # conservatively high to cover hot water and space heating in poorly-insulated buildings - reduce_space_heat_exogenously: true # reduces space heat demand by a given factor (applied before losses in DH) - # this can represent e.g. building renovation, building demolition, or if - # the factor is negative: increasing floor area, increased thermal comfort, population growth - reduce_space_heat_exogenously_factor: # per unit reduction in space heat demand - # the default factors are determined by the LTS scenario from http://tool.european-calculator.eu/app/buildings/building-types-area/?levers=1ddd4444421213bdbbbddd44444ffffff11f411111221111211l212221 + shipping_methanol_efficiency: 0.46 + shipping_oil_efficiency: 0.40 + aviation_demand_factor: 1. + HVC_demand_factor: 1. + time_dep_hp_cop: true + heat_pump_sink_T: 55. + reduce_space_heat_exogenously: true + reduce_space_heat_exogenously_factor: 2020: 0.10 # this results in a space heat demand reduction of 10% 2025: 0.09 # first heat demand increases compared to 2020 because of larger floor area per capita 2030: 0.09 @@ -452,15 +414,15 @@ sector: 2040: 0.16 2045: 0.21 2050: 0.29 - retrofitting: # co-optimises building renovation to reduce space heat demand - retro_endogen: false # co-optimise space heat savings - cost_factor: 1.0 # weight costs for building renovation - interest_rate: 0.04 # for investment in building components - annualise_cost: true # annualise the investment costs - tax_weighting: false # weight costs depending on taxes in countries - construction_index: true # weight costs depending on labour/material costs per country + retrofitting: + retro_endogen: false + cost_factor: 1.0 + interest_rate: 0.04 + annualise_cost: true + tax_weighting: false + construction_index: true tes: true - tes_tau: # 180 day time constant for centralised, 3 day for decentralised + tes_tau: decentral: 3 central: 180 boilers: true @@ -481,50 +443,48 @@ sector: hydrogen_turbine: false SMR: true regional_co2_sequestration_potential: - enable: false # enable regionally resolved geological co2 storage potential + enable: false attribute: 'conservative estimate Mt' - include_onshore: false # include onshore sequestration potentials - min_size: 3 # Gt, sites with lower potential will be excluded - max_size: 25 # Gt, max sequestration potential for any one site, TODO research suitable value - years_of_storage: 25 # years until potential exhausted at optimised annual rate - co2_sequestration_potential: 200 #MtCO2/a sequestration potential for Europe - co2_sequestration_cost: 10 #EUR/tCO2 for sequestration of CO2 + include_onshore: false + min_size: 3 + max_size: 25 + years_of_storage: 25 + co2_sequestration_potential: 200 + co2_sequestration_cost: 10 co2_spatial: false co2network: false - cc_fraction: 0.9 # default fraction of CO2 captured with post-combustion capture + cc_fraction: 0.9 hydrogen_underground_storage: true hydrogen_underground_storage_locations: # - onshore # more than 50 km from sea - nearshore # within 50 km of sea # - offshore - ammonia: false # can be false (no NH3 carrier), true (copperplated NH3), "regional" (regionalised NH3 without network) - min_part_load_fischer_tropsch: 0.9 # p_min_pu - min_part_load_methanolisation: 0.5 # p_min_pu + ammonia: false + min_part_load_fischer_tropsch: 0.9 + min_part_load_methanolisation: 0.5 use_fischer_tropsch_waste_heat: true use_fuel_cell_waste_heat: true use_electrolysis_waste_heat: false electricity_distribution_grid: true - electricity_distribution_grid_cost_factor: 1.0 #multiplies cost in data/costs.csv - electricity_grid_connection: true # only applies to onshore wind and utility PV + electricity_distribution_grid_cost_factor: 1.0 + electricity_grid_connection: true H2_network: true gas_network: false - H2_retrofit: false # if set to True existing gas pipes can be retrofitted to H2 pipes - # according to hydrogen backbone strategy (April, 2020) p.15 - # https://gasforclimate2050.eu/wp-content/uploads/2020/07/2020_European-Hydrogen-Backbone_Report.pdf - # 60% of original natural gas capacity could be used in cost-optimal case as H2 capacity - H2_retrofit_capacity_per_CH4: 0.6 # ratio for H2 capacity per original CH4 capacity of retrofitted pipelines - gas_network_connectivity_upgrade: 1 # https://networkx.org/documentation/stable/reference/algorithms/generated/networkx.algorithms.connectivity.edge_augmentation.k_edge_augmentation.html#networkx.algorithms.connectivity.edge_augmentation.k_edge_augmentation + H2_retrofit: false + H2_retrofit_capacity_per_CH4: 0.6 + gas_network_connectivity_upgrade: 1 gas_distribution_grid: true - gas_distribution_grid_cost_factor: 1.0 #multiplies cost in data/costs.csv - biomass_spatial: false # regionally resolve biomass (e.g. potentials) - biomass_transport: false # allow transport of solid biomass between nodes - conventional_generation: # generator : carrier + gas_distribution_grid_cost_factor: 1.0 + biomass_spatial: false + biomass_transport: false + conventional_generation: OCGT: gas biomass_to_liquid: false biosng: false +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#industry industry: - St_primary_fraction: # fraction of steel produced via primary route versus secondary route (scrap+EAF); today fraction is 0.6 + St_primary_fraction: 2020: 0.6 2025: 0.55 2030: 0.5 @@ -532,7 +492,7 @@ industry: 2040: 0.4 2045: 0.35 2050: 0.3 - DRI_fraction: # fraction of the primary route converted to DRI + EAF + DRI_fraction: 2020: 0 2025: 0 2030: 0.05 @@ -540,9 +500,9 @@ industry: 2040: 0.4 2045: 0.7 2050: 1 - H2_DRI: 1.7 #H2 consumption in Direct Reduced Iron (DRI), MWh_H2,LHV/ton_Steel from 51kgH2/tSt in Vogl et al (2018) doi:10.1016/j.jclepro.2018.08.279 - elec_DRI: 0.322 #electricity consumption in Direct Reduced Iron (DRI) shaft, MWh/tSt HYBRIT brochure https://ssabwebsitecdn.azureedge.net/-/media/hybrit/files/hybrit_brochure.pdf - Al_primary_fraction: # fraction of aluminium produced via the primary route versus scrap; today fraction is 0.4 + H2_DRI: 1.7 + elec_DRI: 0.322 + Al_primary_fraction: 2020: 0.4 2025: 0.375 2030: 0.35 @@ -550,35 +510,33 @@ industry: 2040: 0.3 2045: 0.25 2050: 0.2 - MWh_NH3_per_tNH3: 5.166 # LHV - MWh_CH4_per_tNH3_SMR: 10.8 # 2012's demand from https://ec.europa.eu/docsroom/documents/4165/attachments/1/translations/en/renditions/pdf - MWh_elec_per_tNH3_SMR: 0.7 # same source, assuming 94-6% split methane-elec of total energy demand 11.5 MWh/tNH3 - MWh_H2_per_tNH3_electrolysis: 6.5 # from https://doi.org/10.1016/j.joule.2018.04.017, around 0.197 tH2/tHN3 (>3/17 since some H2 lost and used for energy) - MWh_elec_per_tNH3_electrolysis: 1.17 # from https://doi.org/10.1016/j.joule.2018.04.017 Table 13 (air separation and HB) + MWh_NH3_per_tNH3: 5.166 + MWh_CH4_per_tNH3_SMR: 10.8 + MWh_elec_per_tNH3_SMR: 0.7 + MWh_H2_per_tNH3_electrolysis: 6.5 + MWh_elec_per_tNH3_electrolysis: 1.17 MWh_NH3_per_MWh_H2_cracker: 1.46 # https://github.com/euronion/trace/blob/44a5ff8401762edbef80eff9cfe5a47c8d3c8be4/data/efficiencies.csv - NH3_process_emissions: 24.5 # in MtCO2/a from SMR for H2 production for NH3 from UNFCCC for 2015 for EU28 - petrochemical_process_emissions: 25.5 # in MtCO2/a for petrochemical and other from UNFCCC for 2015 for EU28 - HVC_primary_fraction: 1. # fraction of today's HVC produced via primary route - HVC_mechanical_recycling_fraction: 0. # fraction of today's HVC produced via mechanical recycling - HVC_chemical_recycling_fraction: 0. # fraction of today's HVC produced via chemical recycling - HVC_production_today: 52. # MtHVC/a from DECHEMA (2017), Figure 16, page 107; includes ethylene, propylene and BTX - MWh_elec_per_tHVC_mechanical_recycling: 0.547 # from SI of https://doi.org/10.1016/j.resconrec.2020.105010, Table S5, for HDPE, PP, PS, PET. LDPE would be 0.756. - MWh_elec_per_tHVC_chemical_recycling: 6.9 # Material Economics (2019), page 125; based on pyrolysis and electric steam cracking - chlorine_production_today: 9.58 # MtCl/a from DECHEMA (2017), Table 7, page 43 - MWh_elec_per_tCl: 3.6 # DECHEMA (2017), Table 6, page 43 - MWh_H2_per_tCl: -0.9372 # DECHEMA (2017), page 43; negative since hydrogen produced in chloralkali process - methanol_production_today: 1.5 # MtMeOH/a from DECHEMA (2017), page 62 - MWh_elec_per_tMeOH: 0.167 # DECHEMA (2017), Table 14, page 65 - MWh_CH4_per_tMeOH: 10.25 # DECHEMA (2017), Table 14, page 65 + NH3_process_emissions: 24.5 + petrochemical_process_emissions: 25.5 + HVC_primary_fraction: 1. + HVC_mechanical_recycling_fraction: 0. + HVC_chemical_recycling_fraction: 0. + HVC_production_today: 52. + MWh_elec_per_tHVC_mechanical_recycling: 0.547 + MWh_elec_per_tHVC_chemical_recycling: 6.9 + chlorine_production_today: 9.58 + MWh_elec_per_tCl: 3.6 + MWh_H2_per_tCl: -0.9372 + methanol_production_today: 1.5 + MWh_elec_per_tMeOH: 0.167 + MWh_CH4_per_tMeOH: 10.25 hotmaps_locate_missing: false reference_year: 2015 - # references: - # DECHEMA (2017): https://dechema.de/dechema_media/Downloads/Positionspapiere/Technology_study_Low_carbon_energy_and_feedstock_for_the_European_chemical_industry-p-20002750.pdf - # Material Economics (2019): https://materialeconomics.com/latest-updates/industrial-transformation-2050 +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#costs costs: year: 2030 - version: v0.5.0 + version: v0.6.0 rooftop_share: 0.14 # based on the potentials, assuming (0.1 kW/m2 and 10 m2/person) fill_values: FOM: 0 @@ -602,14 +560,15 @@ costs: fuel cell: 0. battery: 0. battery inverter: 0. - emission_prices: # in currency per tonne emission, only used with the option Ep + emission_prices: co2: 0. +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#clustering clustering: simplify_network: - to_substations: false # network is simplified to nodes with positive or negative power injection (i.e. substations or offwind connections) + to_substations: false algorithm: kmeans # choose from: [hac, kmeans] - feature: solar+onwind-time # only for hac. choose from: [solar+onwind-time, solar+onwind-cap, solar-time, solar-cap, solar+offwind-cap] etc. + feature: solar+onwind-time exclude_carriers: [] remove_stubs: true remove_stubs_across_borders: true @@ -619,7 +578,7 @@ clustering: exclude_carriers: [] aggregation_strategies: generators: - p_nom_max: sum # use "min" for more conservative assumptions + p_nom_max: sum p_nom_min: sum p_min_pu: mean marginal_cost: mean @@ -628,12 +587,13 @@ clustering: ramp_limit_down: max efficiency: mean +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#solving solving: #tmpdir: "path/to/tmp" options: - formulation: kirchhoff clip_p_max_pu: 1.e-2 load_shedding: false + transmission_losses: 0 noisy_costs: true skip_iterations: true track_iterations: false @@ -717,6 +677,7 @@ operations: co2_price: 500 # EUR/t co2_sequestation_limit: 200 # Mt/a +# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#plotting plotting: map: boundaries: [-11, 30, 34, 71] @@ -731,48 +692,6 @@ plotting: energy_max: 20000 energy_min: -20000 energy_threshold: 50. - vre_techs: - - onwind - - offwind-ac - - offwind-dc - - solar - - ror - renewable_storage_techs: - - PHS - - hydro - conv_techs: - - OCGT - - CCGT - - Nuclear - - Coal - storage_techs: - - hydro+PHS - - battery - - H2 - load_carriers: - - AC load - AC_carriers: - - AC line - - AC transformer - link_carriers: - - DC line - - Converter AC-DC - heat_links: - - heat pump - - resistive heater - - CHP heat - - CHP electric - - gas boiler - - central heat pump - - central resistive heater - - central CHP heat - - central CHP electric - - central gas boiler - heat_generators: - - gas boiler - - central gas boiler - - solar thermal collector - - central solar thermal collector nice_names: OCGT: "Open-Cycle Gas" @@ -813,6 +732,11 @@ plotting: solar: "#f9d002" solar PV: "#f9d002" solar thermal: '#ffbf2b' + residential rural solar thermal: '#f1c069' + services rural solar thermal: '#eabf61' + residential urban decentral solar thermal: '#e5bc5a' + services urban decentral solar thermal: '#dfb953' + urban central solar thermal: '#d7b24c' solar rooftop: '#ffea80' # gas OCGT: '#e0986c' @@ -821,9 +745,15 @@ plotting: gas boiler: '#db6a25' gas boilers: '#db6a25' gas boiler marginal: '#db6a25' + residential rural gas boiler: '#d4722e' + residential urban decentral gas boiler: '#cb7a36' + services rural gas boiler: '#c4813f' + services urban decentral gas boiler: '#ba8947' + urban central gas boiler: '#b0904f' gas: '#e05b09' fossil gas: '#e05b09' natural gas: '#e05b09' + biogas to gas: '#e36311' CCGT: '#a85522' CCGT marginal: '#a85522' allam: '#B98F76' @@ -836,6 +766,11 @@ plotting: # oil oil: '#c9c9c9' oil boiler: '#adadad' + residential rural oil boiler: '#a9a9a9' + services rural oil boiler: '#a5a5a5' + residential urban decentral oil boiler: '#a1a1a1' + urban central oil boiler: '#9d9d9d' + services urban decentral oil boiler: '#999999' agriculture machinery oil: '#949494' shipping oil: "#808080" land transport oil: '#afafaf' @@ -861,13 +796,20 @@ plotting: solid biomass for industry CC: '#47411c' solid biomass for industry co2 from atmosphere: '#736412' solid biomass for industry co2 to stored: '#47411c' + urban central solid biomass CHP: '#9d9042' + urban central solid biomass CHP CC: '#6c5d28' biomass boiler: '#8A9A5B' + residential rural biomass boiler: '#a1a066' + residential urban decentral biomass boiler: '#b0b87b' + services rural biomass boiler: '#c6cf98' + services urban decentral biomass boiler: '#dde5b5' biomass to liquid: '#32CD32' BioSNG: '#123456' # power transmission lines: '#6c9459' transmission lines: '#6c9459' electricity distribution grid: '#97ad8c' + low voltage: '#97ad8c' # electricity demand Electric load: '#110d63' electric demand: '#110d63' @@ -878,24 +820,48 @@ plotting: # battery + EVs battery: '#ace37f' battery storage: '#ace37f' + battery charger: '#88a75b' + battery discharger: '#5d4e29' home battery: '#80c944' home battery storage: '#80c944' + home battery charger: '#5e8032' + home battery discharger: '#3c5221' BEV charger: '#baf238' V2G: '#e5ffa8' land transport EV: '#baf238' Li ion: '#baf238' # hot water storage water tanks: '#e69487' + residential rural water tanks: '#f7b7a3' + services rural water tanks: '#f3afa3' + residential urban decentral water tanks: '#f2b2a3' + services urban decentral water tanks: '#f1b4a4' + urban central water tanks: '#e9977d' hot water storage: '#e69487' - hot water charging: '#e69487' - hot water discharging: '#e69487' + hot water charging: '#e8998b' + urban central water tanks charger: '#b57a67' + residential rural water tanks charger: '#b4887c' + residential urban decentral water tanks charger: '#b39995' + services rural water tanks charger: '#b3abb0' + services urban decentral water tanks charger: '#b3becc' + hot water discharging: '#e99c8e' + urban central water tanks discharger: '#b9816e' + residential rural water tanks discharger: '#ba9685' + residential urban decentral water tanks discharger: '#baac9e' + services rural water tanks discharger: '#bbc2b8' + services urban decentral water tanks discharger: '#bdd8d3' # heat demand Heat load: '#cc1f1f' heat: '#cc1f1f' heat demand: '#cc1f1f' rural heat: '#ff5c5c' + residential rural heat: '#ff7c7c' + services rural heat: '#ff9c9c' central heat: '#cc1f1f' + urban central heat: '#d15959' decentral heat: '#750606' + residential urban decentral heat: '#a33c3c' + services urban decentral heat: '#cc1f1f' low-temperature heat for industry: '#8f2727' process heat: '#ff0000' agriculture heat: '#d9a5a5' @@ -903,14 +869,26 @@ plotting: heat pumps: '#2fb537' heat pump: '#2fb537' air heat pump: '#36eb41' + residential urban decentral air heat pump: '#48f74f' + services urban decentral air heat pump: '#5af95d' + urban central air heat pump: '#6cfb6b' ground heat pump: '#2fb537' + residential rural ground heat pump: '#48f74f' + services rural ground heat pump: '#5af95d' Ambient: '#98eb9d' CHP: '#8a5751' + urban central gas CHP: '#8d5e56' CHP CC: '#634643' + urban central gas CHP CC: '#6e4e4c' CHP heat: '#8a5751' CHP electric: '#8a5751' district heating: '#e8beac' resistive heater: '#d8f9b8' + residential rural resistive heater: '#bef5b5' + residential urban decentral resistive heater: '#b2f1a9' + services rural resistive heater: '#a5ed9d' + services urban decentral resistive heater: '#98e991' + urban central resistive heater: '#8cdf85' retrofitting: '#8487e8' building retrofitting: '#8487e8' # hydrogen @@ -922,13 +900,16 @@ plotting: SMR CC: '#4f1745' H2 liquefaction: '#d647bd' hydrogen storage: '#bf13a0' + H2 Store: '#bf13a0' H2 storage: '#bf13a0' land transport fuel cell: '#6b3161' H2 pipeline: '#f081dc' H2 pipeline retrofitted: '#ba99b5' H2 Fuel Cell: '#c251ae' + H2 fuel cell: '#c251ae' H2 turbine: '#991f83' H2 Electrolysis: '#ff29d9' + H2 electrolysis: '#ff29d9' # ammonia NH3: '#46caf0' ammonia: '#46caf0' @@ -977,9 +958,11 @@ plotting: waste: '#e3d37d' other: '#000000' geothermal: '#ba91b1' + AC: "#70af1d" AC-AC: "#70af1d" AC line: "#70af1d" links: "#8a1caf" HVDC links: "#8a1caf" + DC: "#8a1caf" DC-DC: "#8a1caf" DC link: "#8a1caf" diff --git a/config/test/config.myopic.yaml b/config/test/config.myopic.yaml index efa03136..0bb85ec6 100644 --- a/config/test/config.myopic.yaml +++ b/config/test/config.myopic.yaml @@ -31,6 +31,14 @@ snapshots: end: "2013-03-08" electricity: + co2limit: 100.e+6 + + extendable_carriers: + Generator: [OCGT] + StorageUnit: [battery] + Store: [H2] + Link: [H2 pipeline] + renewable_carriers: [solar, onwind, offwind-ac, offwind-dc] atlite: diff --git a/config/test/config.overnight.yaml b/config/test/config.overnight.yaml index fb468ded..a2a0f5a4 100644 --- a/config/test/config.overnight.yaml +++ b/config/test/config.overnight.yaml @@ -28,6 +28,14 @@ snapshots: end: "2013-03-08" electricity: + co2limit: 100.e+6 + + extendable_carriers: + Generator: [OCGT] + StorageUnit: [battery] + Store: [H2] + Link: [H2 pipeline] + renewable_carriers: [solar, onwind, offwind-ac, offwind-dc] atlite: diff --git a/data/override_component_attrs/buses.csv b/data/override_component_attrs/buses.csv deleted file mode 100644 index 7581e328..00000000 --- a/data/override_component_attrs/buses.csv +++ /dev/null @@ -1,3 +0,0 @@ -attribute,type,unit,default,description,status -location,string,n/a,n/a,Reference to original electricity bus,Input (optional) -unit,string,n/a,MWh,Unit of the bus (descriptive only), Input (optional) diff --git a/data/override_component_attrs/generators.csv b/data/override_component_attrs/generators.csv deleted file mode 100644 index 4f214396..00000000 --- a/data/override_component_attrs/generators.csv +++ /dev/null @@ -1,4 +0,0 @@ -attribute,type,unit,default,description,status -carrier,string,n/a,n/a,carrier,Input (optional) -lifetime,float,years,inf,lifetime,Input (optional) -build_year,int,year ,0,build year,Input (optional) diff --git a/data/override_component_attrs/links.csv b/data/override_component_attrs/links.csv deleted file mode 100644 index 0fc2747a..00000000 --- a/data/override_component_attrs/links.csv +++ /dev/null @@ -1,13 +0,0 @@ -attribute,type,unit,default,description,status -bus2,string,n/a,n/a,2nd bus,Input (optional) -bus3,string,n/a,n/a,3rd bus,Input (optional) -bus4,string,n/a,n/a,4th bus,Input (optional) -efficiency2,static or series,per unit,1,2nd bus efficiency,Input (optional) -efficiency3,static or series,per unit,1,3rd bus efficiency,Input (optional) -efficiency4,static or series,per unit,1,4th bus efficiency,Input (optional) -p2,series,MW,0,2nd bus output,Output -p3,series,MW,0,3rd bus output,Output -p4,series,MW,0,4th bus output,Output -carrier,string,n/a,n/a,carrier,Input (optional) -lifetime,float,years,inf,lifetime,Input (optional) -build_year,int,year ,0,build year,Input (optional) diff --git a/data/override_component_attrs/loads.csv b/data/override_component_attrs/loads.csv deleted file mode 100644 index 10bb5b4f..00000000 --- a/data/override_component_attrs/loads.csv +++ /dev/null @@ -1,2 +0,0 @@ -attribute,type,unit,default,description,status -carrier,string,n/a,n/a,carrier,Input (optional) diff --git a/data/override_component_attrs/stores.csv b/data/override_component_attrs/stores.csv deleted file mode 100644 index 4f214396..00000000 --- a/data/override_component_attrs/stores.csv +++ /dev/null @@ -1,4 +0,0 @@ -attribute,type,unit,default,description,status -carrier,string,n/a,n/a,carrier,Input (optional) -lifetime,float,years,inf,lifetime,Input (optional) -build_year,int,year ,0,build year,Input (optional) diff --git a/doc/conf.py b/doc/conf.py index 4b3978af..8111c86c 100644 --- a/doc/conf.py +++ b/doc/conf.py @@ -36,6 +36,7 @@ sys.path.insert(0, os.path.abspath("../scripts")) extensions = [ #'sphinx.ext.autodoc', #'sphinx.ext.autosummary', + "myst_parser", "sphinx.ext.autosectionlabel", "sphinx.ext.intersphinx", "sphinx.ext.todo", diff --git a/doc/configtables/biomass.csv b/doc/configtables/biomass.csv new file mode 100644 index 00000000..f5b4841f --- /dev/null +++ b/doc/configtables/biomass.csv @@ -0,0 +1,7 @@ +,Unit,Values,Description +year ,--,"{2010, 2020, 2030, 2040, 2050}",Year for which to retrieve biomass potential according to the assumptions of the `JRC ENSPRESO `_ . +scenario ,--,"{""ENS_Low"", ""ENS_Med"", ""ENS_High""}",Scenario for which to retrieve biomass potential. The scenario definition can be seen in `ENSPRESO_BIOMASS `_ +classes ,,, +-- solid biomass,--,Array of biomass comodity,The comodity that are included as solid biomass +-- not included,--,Array of biomass comodity,The comodity that are not included as a biomass potential +-- biogas,--,Array of biomass comodity,The comodity that are included as biogas diff --git a/doc/configtables/co2_budget.csv b/doc/configtables/co2_budget.csv new file mode 100644 index 00000000..21b42f05 --- /dev/null +++ b/doc/configtables/co2_budget.csv @@ -0,0 +1,2 @@ +,Unit,Values,Description +co2_budget,--,Dictionary with planning horizons as keys.,CO2 budget as a fraction of 1990 emissions. Overwritten if ``CO2Lx`` or ``cb`` are set in ``{sector_opts}`` wildcard"doc/configtables/othertoplevel.csv diff --git a/doc/configtables/countries.csv b/doc/configtables/countries.csv new file mode 100644 index 00000000..6a386416 --- /dev/null +++ b/doc/configtables/countries.csv @@ -0,0 +1,2 @@ + ,Unit,Values,Description +countries,--,"Subset of {'AL', 'AT', 'BA', 'BE', 'BG', 'CH', 'CZ', 'DE', 'DK', 'EE', 'ES', 'FI', 'FR', 'GB', 'GR', 'HR', 'HU', 'IE', 'IT', 'LT', 'LU', 'LV', 'ME', 'MK', 'NL', 'NO', 'PL', 'PT', 'RO', 'RS', 'SE', 'SI', 'SK'}","European countries defined by their `Two-letter country codes (ISO 3166-1) `_ which should be included in the energy system model." diff --git a/doc/configtables/electricity.csv b/doc/configtables/electricity.csv index 9cf23ebf..4c04fee6 100644 --- a/doc/configtables/electricity.csv +++ b/doc/configtables/electricity.csv @@ -1,29 +1,36 @@ -,Unit,Values,Description -voltages,kV,"Any subset of {220., 300., 380.}",Voltage levels to consider -gaslimit,MWhth,"float or false",Global gas usage limit -co2limit,:math:`t_{CO_2-eq}/a`,float,Cap on total annual system carbon dioxide emissions -co2base,:math:`t_{CO_2-eq}/a`,float,Reference value of total annual system carbon dioxide emissions if relative emission reduction target is specified in ``{opts}`` wildcard. -agg_p_nom_limits,file,path,Reference to ``.csv`` file specifying per carrier generator nominal capacity constraints for individual countries if ``'CCL'`` is in ``{opts}`` wildcard. Defaults to ``data/agg_p_nom_minmax.csv``. -operational_reserve,,,"Settings for reserve requirements following like `GenX `_" --- activate,bool,"true or false","Whether to take operational reserve requirements into account during optimisation" --- epsilon_load,--,float,share of total load --- epsilon_vres,--,float,share of total renewable supply --- contingency,MW,float,fixed reserve capacity -max_hours,,, --- battery,h,float,Maximum state of charge capacity of the battery in terms of hours at full output capacity ``p_nom``. Cf. `PyPSA documentation `_. --- H2,h,float,Maximum state of charge capacity of the hydrogen storage in terms of hours at full output capacity ``p_nom``. Cf. `PyPSA documentation `_. -extendable_carriers,,, --- Generator,--,"Any extendable carrier","Defines existing or non-existing conventional and renewable power plants to be extendable during the optimization. Conventional generators can only be built/expanded where already existent today. If a listed conventional carrier is not included in the ``conventional_carriers`` list, the lower limit of the capacity expansion is set to 0." --- StorageUnit,--,"Any subset of {'battery','H2'}",Adds extendable storage units (battery and/or hydrogen) at every node/bus after clustering without capacity limits and with zero initial capacity. --- Store,--,"Any subset of {'battery','H2'}",Adds extendable storage units (battery and/or hydrogen) at every node/bus after clustering without capacity limits and with zero initial capacity. --- Link,--,Any subset of {'H2 pipeline'},Adds extendable links (H2 pipelines only) at every connection where there are lines or HVDC links without capacity limits and with zero initial capacity. Hydrogen pipelines require hydrogen storage to be modelled as ``Store``. -powerplants_filter,--,"use `pandas.query `_ strings here, e.g. Country not in ['Germany']",Filter query for the default powerplant database. -custom_powerplants,--,"use `pandas.query `_ strings here, e.g. Country in ['Germany']",Filter query for the custom powerplant database. -conventional_carriers,--,"Any subset of {nuclear, oil, OCGT, CCGT, coal, lignite, geothermal, biomass}","List of conventional power plants to include in the model from ``resources/powerplants.csv``. If an included carrier is also listed in `extendable_carriers`, the capacity is taken as a lower bound." -renewable_carriers,--,"Any subset of {solar, onwind, offwind-ac, offwind-dc, hydro}",List of renewable generators to include in the model. -estimate_renewable_capacities,,, --- enable,,bool,"Activate routine to estimate renewable capacities" --- from_opsd,--,bool,"Add capacities from OPSD data" --- year,--,bool,"Renewable capacities are based on existing capacities reported by IRENA for the specified year" --- expansion_limit,--,float or false,"Artificially limit maximum capacities to factor * (IRENA capacities), i.e. 110% of 's capacities => expansion_limit: 1.1 false: Use estimated renewable potentials determine by the workflow" --- technology_mapping,,,"Mapping between powerplantmatching and PyPSA-Eur technology names" +,Unit,Values,Description +voltages,kV,"Any subset of {220., 300., 380.}",Voltage levels to consider +gaslimit,MWhth,float or false,Global gas usage limit +co2limit,:math:`t_{CO_2-eq}/a`,float,Cap on total annual system carbon dioxide emissions +co2base,:math:`t_{CO_2-eq}/a`,float,Reference value of total annual system carbon dioxide emissions if relative emission reduction target is specified in ``{opts}`` wildcard. +agg_p_nom_limits,file,path,Reference to ``.csv`` file specifying per carrier generator nominal capacity constraints for individual countries if ``'CCL'`` is in ``{opts}`` wildcard. Defaults to ``data/agg_p_nom_minmax.csv``. +operational_reserve,,,Settings for reserve requirements following `GenX `_ +,,, +-- activate,bool,true or false,Whether to take operational reserve requirements into account during optimisation +-- epsilon_load,--,float,share of total load +-- epsilon_vres,--,float,share of total renewable supply +-- contingency,MW,float,fixed reserve capacity +max_hours,,, +-- battery,h,float,Maximum state of charge capacity of the battery in terms of hours at full output capacity ``p_nom``. Cf. `PyPSA documentation `_. +-- H2,h,float,Maximum state of charge capacity of the hydrogen storage in terms of hours at full output capacity ``p_nom``. Cf. `PyPSA documentation `_. +extendable_carriers,,, +-- Generator,--,Any extendable carrier,"Defines existing or non-existing conventional and renewable power plants to be extendable during the optimization. Conventional generators can only be built/expanded where already existent today. If a listed conventional carrier is not included in the ``conventional_carriers`` list, the lower limit of the capacity expansion is set to 0." +-- StorageUnit,--,"Any subset of {'battery','H2'}",Adds extendable storage units (battery and/or hydrogen) at every node/bus after clustering without capacity limits and with zero initial capacity. +-- Store,--,"Any subset of {'battery','H2'}",Adds extendable storage units (battery and/or hydrogen) at every node/bus after clustering without capacity limits and with zero initial capacity. +-- Link,--,Any subset of {'H2 pipeline'},Adds extendable links (H2 pipelines only) at every connection where there are lines or HVDC links without capacity limits and with zero initial capacity. Hydrogen pipelines require hydrogen storage to be modelled as ``Store``. +powerplants_filter,--,"use `pandas.query `_ strings here, e.g. ``Country not in ['Germany']``",Filter query for the default powerplant database. +,,, +custom_powerplants,--,"use `pandas.query `_ strings here, e.g. ``Country in ['Germany']``",Filter query for the custom powerplant database. +,,, +conventional_carriers,--,"Any subset of {nuclear, oil, OCGT, CCGT, coal, lignite, geothermal, biomass}","List of conventional power plants to include in the model from ``resources/powerplants.csv``. If an included carrier is also listed in ``extendable_carriers``, the capacity is taken as a lower bound." +,,, +renewable_carriers,--,"Any subset of {solar, onwind, offwind-ac, offwind-dc, hydro}",List of renewable generators to include in the model. +estimate_renewable_capacities,,, +-- enable,,bool,Activate routine to estimate renewable capacities +-- from_opsd,--,bool,Add renewable capacities from `OPSD database `_. The value is depreciated but still can be used. +-- year,--,bool,Renewable capacities are based on existing capacities reported by IRENA (IRENASTAT) for the specified year +-- expansion_limit,--,float or false,"Artificially limit maximum IRENA capacities to a factor. For example, an ``expansion_limit: 1.1`` means 110% of capacities . If false are chosen, the estimated renewable potentials determine by the workflow are used." +-- technology_mapping,,,Mapping between PyPSA-Eur and powerplantmatching technology names +-- -- Offshore,--,"Any subset of {offwind-ac, offwind-dc}","List of PyPSA-Eur carriers that is considered as (IRENA, OPSD) onshore technology." +-- -- Offshore,--,{onwind},"List of PyPSA-Eur carriers that is considered as (IRENA, OPSD) offshore technology." +-- -- PV,--,{solar},"List of PyPSA-Eur carriers that is considered as (IRENA, OPSD) PV technology." diff --git a/doc/configtables/enable.csv b/doc/configtables/enable.csv index 8a543b46..e1349fef 100644 --- a/doc/configtables/enable.csv +++ b/doc/configtables/enable.csv @@ -1,4 +1,5 @@ ,Unit,Values,Description +enable,str or bool,"{auto, true, false}","Switch to include (true) or exclude (false) the retrieve_* rules of snakemake into the workflow; 'auto' sets true|false based on availability of an internet connection to prevent issues with snakemake failing due to lack of internet connection." prepare_links_p_nom,bool,"{true, false}","Switch to retrieve current HVDC projects from `Wikipedia `_" retrieve_databundle,bool,"{true, false}","Switch to retrieve databundle from zenodo via the rule :mod:`retrieve_databundle` or whether to keep a custom databundle located in the corresponding folder." retrieve_sector_databundle,bool,"{true, false}","Switch to retrieve sector databundle from zenodo via the rule :mod:`retrieve_sector_databundle` or whether to keep a custom databundle located in the corresponding folder." diff --git a/doc/configtables/energy.csv b/doc/configtables/energy.csv new file mode 100644 index 00000000..8718d75e --- /dev/null +++ b/doc/configtables/energy.csv @@ -0,0 +1,7 @@ +,Unit,Values,Description +energy_totals_year ,--,"{1990,1995,2000,2005,2010,2011,…} ",The year for the sector energy use. The year must be avaliable in the Eurostat report +base_emissions_year ,--,"YYYY; e.g. 1990","The base year for the sector emissions. See `European Environment Agency (EEA) `_." + +eurostat_report_year ,--,"{2016,2017,2018}","The publication year of the Eurostat report. 2016 includes Bosnia and Herzegovina, 2017 does not" + +emissions ,--,"{CO2, All greenhouse gases - (CO2 equivalent)}","Specify which sectoral emissions are taken into account. Data derived from EEA. Currently only CO2 is implemented." diff --git a/doc/configtables/existing_capacities.csv b/doc/configtables/existing_capacities.csv new file mode 100644 index 00000000..87519193 --- /dev/null +++ b/doc/configtables/existing_capacities.csv @@ -0,0 +1,6 @@ +,Unit,Values,Description +grouping_years_power ,--,A list of years,Intervals to group existing capacities for power +grouping_years_heat ,--,A list of years below 2020,Intervals to group existing capacities for heat + +threshold_capacity ,MW,float,Capacities generators and links of below threshold are removed during add_existing_capacities +conventional_carriers ,--,"Any subset of {uranium, coal, lignite, oil} ",List of conventional power plants to include in the sectoral network diff --git a/doc/configtables/foresight.csv b/doc/configtables/foresight.csv new file mode 100644 index 00000000..a19ec139 --- /dev/null +++ b/doc/configtables/foresight.csv @@ -0,0 +1,2 @@ +,Unit,Values,Description +foresight,string,"{overnight, myopic, perfect}","See :ref:`Foresight Options` for detail explanations." diff --git a/doc/configtables/industry.csv b/doc/configtables/industry.csv new file mode 100644 index 00000000..fc1b3f0f --- /dev/null +++ b/doc/configtables/industry.csv @@ -0,0 +1,31 @@ +,Unit,Values,Description +St_primary_fraction,--,Dictionary with planning horizons as keys.,The fraction of steel produced via primary route versus secondary route (scrap+EAF). Current fraction is 0.6 +DRI_fraction,--,Dictionary with planning horizons as keys.,The fraction of the primary route DRI + EAF +,,, +H2_DRI,--,float,The hydrogen consumption in Direct Reduced Iron (DRI) Mwh_H2 LHV/ton_Steel from 51kgH2/tSt in `Vogl et al (2018) `_ +elec_DRI,MWh/tSt,float,The electricity consumed in Direct Reduced Iron (DRI) shaft. From `HYBRIT brochure `_ +Al_primary_fraction,--,Dictionary with planning horizons as keys.,The fraction of aluminium produced via the primary route versus scrap. Current fraction is 0.4 +MWh_NH3_per_tNH3,LHV,float,The energy amount per ton of ammonia. +MWh_CH4_per_tNH3_SMR,--,float,The energy amount of methane needed to produce a ton of ammonia using steam methane reforming (SMR). Value derived from 2012's demand from `Center for European Policy Studies (2008) `_ +MWh_elec_per_tNH3_SMR,--,float,"The energy amount of electricity needed to produce a ton of ammonia using steam methane reforming (SMR). same source, assuming 94-6% split methane-elec of total energy demand 11.5 MWh/tNH3" +Mwh_H2_per_tNH3 _electrolysis,--,float,"The energy amount of hydrogen needed to produce a ton of ammonia using Haber–Bosch process. From `Wang et al (2018) `_, Base value assumed around 0.197 tH2/tHN3 (>3/17 since some H2 lost and used for energy)" +Mwh_elec_per_tNH3 _electrolysis,--,float,"The energy amount of electricity needed to produce a ton of ammonia using Haber–Bosch process. From `Wang et al (2018) `_, Table 13 (air separation and HB)" +Mwh_NH3_per_MWh _H2_cracker,--,float,The energy amount of amonia needed to produce an energy amount hydrogen using ammonia cracker +NH3_process_emissions,MtCO2/a,float,The emission of ammonia production from steam methane reforming (SMR). From UNFCCC for 2015 for EU28 +petrochemical_process _emissions,MtCO2/a,float,The emission of petrochemical production. From UNFCCC for 2015 for EU28 +HVC_primary_fraction,--,float,The fraction of high value chemicals (HVC) produced via primary route +HVC_mechanical_recycling _fraction,--,float,The fraction of high value chemicals (HVC) produced using mechanical recycling +HVC_chemical_recycling _fraction,--,float,The fraction of high value chemicals (HVC) produced using chemical recycling +,,, +HVC_production_today,MtHVC/a,float,"The amount of high value chemicals (HVC) produced. This includes ethylene, propylene and BTX. From `DECHEMA (2017) `_, Figure 16, page 107" +Mwh_elec_per_tHVC _mechanical_recycling,MWh/tHVC,float,"The energy amount of electricity needed to produce a ton of high value chemical (HVC) using mechanical recycling. From SI of `Meys et al (2020) `_, Table S5, for HDPE, PP, PS, PET. LDPE would be 0.756." +Mwh_elec_per_tHVC _chemical_recycling,MWh/tHVC,float,"The energy amount of electricity needed to produce a ton of high value chemical (HVC) using chemical recycling. The default value is based on pyrolysis and electric steam cracking. From `Material Economics (2019) `_, page 125" +,,, +chlorine_production _today,MtCl/a,float,"The amount of chlorine produced. From `DECHEMA (2017) `_, Table 7, page 43" +MWh_elec_per_tCl,MWh/tCl,float,"The energy amount of electricity needed to produce a ton of chlorine. From `DECHEMA (2017) `_, Table 6 page 43" +MWh_H2_per_tCl,MWhH2/tCl,float,"The energy amount of hydrogen needed to produce a ton of chlorine. The value is negative since hydrogen produced in chloralkali process. From `DECHEMA (2017) `_, page 43" +methanol_production _today,MtMeOH/a,float,"The amount of methanol produced. From `DECHEMA (2017) `_, page 62" +MWh_elec_per_tMeOH,MWh/tMeOH,float,"The energy amount of electricity needed to produce a ton of methanol. From `DECHEMA (2017) `_, Table 14, page 65" +MWh_CH4_per_tMeOH,MWhCH4/tMeOH,float,"The energy amount of methane needed to produce a ton of methanol. From `DECHEMA (2017) `_, Table 14, page 65" +hotmaps_locate_missing,--,"{true,false}",Locate industrial sites without valid locations based on city and countries. +reference_year,year,YYYY,The year used as the baseline for industrial energy demand and production. Data extracted from `JRC-IDEES 2015 `_ diff --git a/doc/configtables/lines.csv b/doc/configtables/lines.csv index ddf02e54..ad5dd690 100644 --- a/doc/configtables/lines.csv +++ b/doc/configtables/lines.csv @@ -2,5 +2,6 @@ types,--,"Values should specify a `line type in PyPSA `_. Keys should specify the corresponding voltage level (e.g. 220., 300. and 380. kV)","Specifies line types to assume for the different voltage levels of the ENTSO-E grid extraction. Should normally handle voltage levels 220, 300, and 380 kV" s_max_pu,--,"Value in [0.,1.]","Correction factor for line capacities (``s_nom``) to approximate :math:`N-1` security and reserve capacity for reactive power flows" s_nom_max,MW,"float","Global upper limit for the maximum capacity of each extendable line." +max_extension,MW,"float","Upper limit for the extended capacity of each extendable line." length_factor,--,float,"Correction factor to account for the fact that buses are *not* connected by lines through air-line distance." under_construction,--,"One of {'zero': set capacity to zero, 'remove': remove completely, 'keep': keep with full capacity}","Specifies how to handle lines which are currently under construction." diff --git a/doc/configtables/links.csv b/doc/configtables/links.csv index c9981dc7..c1ffb427 100644 --- a/doc/configtables/links.csv +++ b/doc/configtables/links.csv @@ -1,5 +1,6 @@ ,Unit,Values,Description p_max_pu,--,"Value in [0.,1.]","Correction factor for link capacities ``p_nom``." p_nom_max,MW,"float","Global upper limit for the maximum capacity of each extendable DC link." +max_extension,MW,"float","Upper limit for the extended capacity of each extendable DC link." include_tyndp,bool,"{'true', 'false'}","Specifies whether to add HVDC link projects from the `TYNDP 2018 `_ which are at least in permitting." under_construction,--,"One of {'zero': set capacity to zero, 'remove': remove completely, 'keep': keep with full capacity}","Specifies how to handle lines which are currently under construction." diff --git a/doc/configtables/plotting.csv b/doc/configtables/plotting.csv index bea345ca..ed5d9c9f 100644 --- a/doc/configtables/plotting.csv +++ b/doc/configtables/plotting.csv @@ -1,10 +1,10 @@ -,Unit,Values,Description -map,,, --- boundaries,°,"[x1,x2,y1,y2]","Boundaries of the map plots in degrees latitude (y) and longitude (x)" -costs_max,bn Euro,float,"Upper y-axis limit in cost bar plots." -costs_threshold,bn Euro,float,"Threshold below which technologies will not be shown in cost bar plots." -energy_max,TWh,float,"Upper y-axis limit in energy bar plots." -energy_min,TWh,float,"Lower y-axis limit in energy bar plots." -energy_threshold,TWh,float,"Threshold below which technologies will not be shown in energy bar plots." -tech_colors,--,"carrier -> HEX colour code","Mapping from network ``carrier`` to a colour (`HEX colour code `_)." -nice_names,--,"str -> str","Mapping from network ``carrier`` to a more readable name." +,Unit,Values,Description +map,,, +-- boundaries,°,"[x1,x2,y1,y2]",Boundaries of the map plots in degrees latitude (y) and longitude (x) +costs_max,bn Euro,float,Upper y-axis limit in cost bar plots. +costs_threshold,bn Euro,float,Threshold below which technologies will not be shown in cost bar plots. +energy_max,TWh,float,Upper y-axis limit in energy bar plots. +energy_min,TWh,float,Lower y-axis limit in energy bar plots. +energy_threshold,TWh,float,Threshold below which technologies will not be shown in energy bar plots. +tech_colors,--,carrier -> HEX colour code,Mapping from network ``carrier`` to a colour (`HEX colour code `_). +nice_names,--,str -> str,Mapping from network ``carrier`` to a more readable name. diff --git a/doc/configtables/sector-opts.csv b/doc/configtables/sector-opts.csv index 5a6b6852..ea39c3b0 100644 --- a/doc/configtables/sector-opts.csv +++ b/doc/configtables/sector-opts.csv @@ -1,5 +1,5 @@ Trigger, Description, Definition, Status -``nH``, i.e. ``2H``-``6H``, Resample the time-resolution by averaging over every ``n`` snapshots, ``prepare_network``: `average_every_nhours() `_ and its `caller `__), In active use +``nH``, i.e. ``2H``-``6H``, "Resample the time-resolution by averaging over every ``n`` snapshots, ``prepare_network``: `average_every_nhours() `_ and its `caller `__)", In active use ``Co2L``, Add an overall absolute carbon-dioxide emissions limit configured in ``electricity: co2limit``. If a float is appended an overall emission limit relative to the emission level given in ``electricity: co2base`` is added (e.g. ``Co2L0.05`` limits emissisions to 5% of what is given in ``electricity: co2base``), ``prepare_network``: `add_co2limit() `_ and its `caller `__, In active use ``carrier+{c|p|m}factor``,"Alter the capital cost (``c``), installable potential (``p``) or marginal costs (``m``) of a carrier by a factor. Example: ``solar+c0.5`` reduces the capital cost of solar to 50\% of original values.", ``prepare_network``, In active use ``T``,Add land transport sector,,In active use diff --git a/doc/configtables/sector.csv b/doc/configtables/sector.csv new file mode 100644 index 00000000..d610c862 --- /dev/null +++ b/doc/configtables/sector.csv @@ -0,0 +1,122 @@ +,Unit,Values,Description +district_heating,--,,`prepare_sector_network.py `_ +-- potential,--,float,maximum fraction of urban demand which can be supplied by district heating +-- progress,--,Dictionary with planning horizons as keys., Increase of today's district heating demand to potential maximum district heating share. Progress = 0 means today's district heating share. Progress = 1 means maximum fraction of urban demand is supplied by district heating +-- district_heating_loss,--,float,Share increase in district heat demand in urban central due to heat losses +cluster_heat_buses,--,"{true, false}",Cluster residential and service heat buses in `prepare_sector_network.py `_ to one to save memory. +,,, +bev_dsm_restriction _value,--,float,Adds a lower state of charge (SOC) limit for battery electric vehicles (BEV) to manage its own energy demand (DSM). Located in `build_transport_demand.py `_. Set to 0 for no restriction on BEV DSM +bev_dsm_restriction _time,--,float,Time at which SOC of BEV has to be dsm_restriction_value +transport_heating _deadband_upper,°C,float,"The maximum temperature in the vehicle. At higher temperatures, the energy required for cooling in the vehicle increases." +transport_heating _deadband_lower,°C,float,"The minimum temperature in the vehicle. At lower temperatures, the energy required for heating in the vehicle increases." +,,, +ICE_lower_degree_factor,--,float,Share increase in energy demand in internal combustion engine (ICE) for each degree difference between the cold environment and the minimum temperature. +ICE_upper_degree_factor,--,float,Share increase in energy demand in internal combustion engine (ICE) for each degree difference between the hot environment and the maximum temperature. +EV_lower_degree_factor,--,float,Share increase in energy demand in electric vehicles (EV) for each degree difference between the cold environment and the minimum temperature. +EV_upper_degree_factor,--,float,Share increase in energy demand in electric vehicles (EV) for each degree difference between the hot environment and the maximum temperature. +bev_dsm,--,"{true, false}",Add the option for battery electric vehicles (BEV) to participate in demand-side management (DSM) +,,, +bev_availability,--,float,The share for battery electric vehicles (BEV) that are able to do demand side management (DSM) +bev_energy,--,float,The average size of battery electric vehicles (BEV) in MWh +bev_charge_efficiency,--,float,Battery electric vehicles (BEV) charge and discharge efficiency +bev_plug_to_wheel _efficiency,km/kWh,float,The distance battery electric vehicles (BEV) can travel in km per kWh of energy charge in battery. Base value comes from `Tesla Model S `_ +bev_charge_rate,MWh,float,The power consumption for one electric vehicle (EV) in MWh. Value derived from 3-phase charger with 11 kW. +bev_avail_max,--,float,The maximum share plugged-in availability for passenger electric vehicles. +bev_avail_mean,--,float,The average share plugged-in availability for passenger electric vehicles. +v2g,--,"{true, false}",Allows feed-in to grid from EV battery +land_transport_fuel_cell _share,--,Dictionary with planning horizons as keys.,The share of vehicles that uses fuel cells in a given year +land_transport_electric _share,--,Dictionary with planning horizons as keys.,The share of vehicles that uses electric vehicles (EV) in a given year +land_transport_ice _share,--,Dictionary with planning horizons as keys.,The share of vehicles that uses internal combustion engines (ICE) in a given year. What is not EV or FCEV is oil-fuelled ICE. +transport_fuel_cell _efficiency,--,float,The H2 conversion efficiencies of fuel cells in transport +transport_internal _combustion_efficiency,--,float,The oil conversion efficiencies of internal combustion engine (ICE) in transport +agriculture_machinery _electric_share,--,float,The share for agricultural machinery that uses electricity +agriculture_machinery _oil_share,--,float,The share for agricultural machinery that uses oil +agriculture_machinery _fuel_efficiency,--,float,The efficiency of electric-powered machinery in the conversion of electricity to meet agricultural needs. +agriculture_machinery _electric_efficiency,--,float,The efficiency of oil-powered machinery in the conversion of oil to meet agricultural needs. +Mwh_MeOH_per_MWh_H2,LHV,float,"The energy amount of the produced methanol per energy amount of hydrogen. From `DECHEMA (2017) `_, page 64." +MWh_MeOH_per_tCO2,LHV,float,"The energy amount of the produced methanol per ton of CO2. From `DECHEMA (2017) `_, page 64." +MWh_MeOH_per_MWh_e,LHV,float,"The energy amount of the produced methanol per energy amount of electricity. From `DECHEMA (2017) `_, page 64." +shipping_hydrogen _liquefaction,--,"{true, false}",Whether to include liquefaction costs for hydrogen demand in shipping. +,,, +shipping_hydrogen_share,--,Dictionary with planning horizons as keys.,The share of ships powered by hydrogen in a given year +shipping_methanol_share,--,Dictionary with planning horizons as keys.,The share of ships powered by methanol in a given year +shipping_oil_share,--,Dictionary with planning horizons as keys.,The share of ships powered by oil in a given year +shipping_methanol _efficiency,--,float,The efficiency of methanol-powered ships in the conversion of methanol to meet shipping needs (propulsion). The efficiency increase from oil can be 10-15% higher according to the `IEA `_ +,,, +shipping_oil_efficiency,--,float,The efficiency of oil-powered ships in the conversion of oil to meet shipping needs (propulsion). Base value derived from 2011 +aviation_demand_factor,--,float,The proportion of demand for aviation compared to today's consumption +HVC_demand_factor,--,float,The proportion of demand for high-value chemicals compared to today's consumption +,,, +time_dep_hp_cop,--,"{true, false}",Consider the time dependent coefficient of performance (COP) of the heat pump +heat_pump_sink_T,°C,float,The temperature heat sink used in heat pumps based on DTU / large area radiators. The value is conservatively high to cover hot water and space heating in poorly-insulated buildings +reduce_space_heat _exogenously,--,"{true, false}",Influence on space heating demand by a certain factor (applied before losses in district heating). +reduce_space_heat _exogenously_factor,--,Dictionary with planning horizons as keys.,"A positive factor can mean renovation or demolition of a building. If the factor is negative, it can mean an increase in floor area, increased thermal comfort, population growth. The default factors are determined by the `Eurocalc Homes and buildings decarbonization scenario `_" +retrofitting,,, +-- retro_endogen,--,"{true, false}",Add retrofitting as an endogenous system which co-optimise space heat savings. +-- cost_factor,--,float,Weight costs for building renovation +-- interest_rate,--,float,The interest rate for investment in building components +-- annualise_cost,--,"{true, false}",Annualise the investment costs of retrofitting +-- tax_weighting,--,"{true, false}",Weight the costs of retrofitting depending on taxes in countries +-- construction_index,--,"{true, false}",Weight the costs of retrofitting depending on labour/material costs per country +tes,--,"{true, false}",Add option for storing thermal energy in large water pits associated with district heating systems and individual thermal energy storage (TES) +tes_tau,,,The time constant used to calculate the decay of thermal energy in thermal energy storage (TES): 1- :math:`e^{-1/24τ}`. +-- decentral,days,float,The time constant in decentralized thermal energy storage (TES) +-- central,days,float,The time constant in centralized thermal energy storage (TES) +boilers,--,"{true, false}",Add option for transforming electricity into heat using resistive heater +oil_boilers,--,"{true, false}",Add option for transforming oil into heat using boilers +biomass_boiler,--,"{true, false}",Add option for transforming biomass into heat using boilers +chp,--,"{true, false}",Add option for using Combined Heat and Power (CHP) +micro_chp,--,"{true, false}",Add option for using Combined Heat and Power (CHP) for decentral areas. +solar_thermal,--,"{true, false}",Add option for using solar thermal to generate heat. +solar_cf_correction,--,float,The correction factor for the value provided by the solar thermal profile calculations +marginal_cost_storage,currency/MWh ,float,The marginal cost of discharging batteries in distributed grids +methanation,--,"{true, false}",Add option for transforming hydrogen and CO2 into methane using methanation. +helmeth,--,"{true, false}",Add option for transforming power into gas using HELMETH (Integrated High-Temperature ELectrolysis and METHanation for Effective Power to Gas Conversion) +coal_cc,--,"{true, false}",Add option for coal CHPs with carbon capture +dac,--,"{true, false}",Add option for Direct Air Capture (DAC) +co2_vent,--,"{true, false}",Add option for vent out CO2 from storages to the atmosphere. +allam_cycle,--,"{true, false}",Add option to include `Allam cycle gas power plants `_ +hydrogen_fuel_cell,--,"{true, false}",Add option to include hydrogen fuel cell for re-electrification. Assuming OCGT technology costs +hydrogen_turbine,--,"{true, false}",Add option to include hydrogen turbine for re-electrification. Assuming OCGT technology costs +SMR,--,"{true, false}",Add option for transforming natural gas into hydrogen and CO2 using Steam Methane Reforming (SMR) +regional_co2 _sequestration_potential,,, +-- enable,--,"{true, false}",Add option for regionally-resolved geological carbon dioxide sequestration potentials based on `CO2StoP `_. +-- attribute,--,string,Name of the attribute for the sequestration potential +-- include_onshore,--,"{true, false}",Add options for including onshore sequestration potentials +-- min_size,Gt ,float,Any sites with lower potential than this value will be excluded +-- max_size,Gt ,float,The maximum sequestration potential for any one site. +-- years_of_storage,years,float,The years until potential exhausted at optimised annual rate +co2_sequestration_potential,MtCO2/a,float,The potential of sequestering CO2 in Europe per year +co2_sequestration_cost,currency/tCO2,float,The cost of sequestering a ton of CO2 +co2_spatial,--,"{true, false}","Add option to spatially resolve carrier representing stored carbon dioxide. This allows for more detailed modelling of CCUTS, e.g. regarding the capturing of industrial process emissions, usage as feedstock for electrofuels, transport of carbon dioxide, and geological sequestration sites." +,,, +co2network,--,"{true, false}",Add option for planning a new carbon dioxide transmission network +,,, +cc_fraction,--,float,The default fraction of CO2 captured with post-combustion capture +hydrogen_underground _storage,--,"{true, false}",Add options for storing hydrogen underground. Storage potential depends regionally. +hydrogen_underground _storage_locations,,"{onshore, nearshore, offshore}","The location where hydrogen underground storage can be located. Onshore, nearshore, offshore means it must be located more than 50 km away from the sea, within 50 km of the sea, or within the sea itself respectively." +,,, +ammonia,--,"{true, false, regional}","Add ammonia as a carrrier. It can be either true (copperplated NH3), false (no NH3 carrier) or ""regional"" (regionalised NH3 without network)" +min_part_load_fischer _tropsch,per unit of p_nom ,float,The minimum unit dispatch (``p_min_pu``) for the Fischer-Tropsch process +min_part_load _methanolisation,per unit of p_nom ,float,The minimum unit dispatch (``p_min_pu``) for the methanolisation process +,,, +use_fischer_tropsch _waste_heat,--,"{true, false}",Add option for using waste heat of Fischer Tropsch in district heating networks +use_fuel_cell_waste_heat,--,"{true, false}",Add option for using waste heat of fuel cells in district heating networks +use_electrolysis_waste _heat,--,"{true, false}",Add option for using waste heat of electrolysis in district heating networks +electricity_distribution _grid,--,"{true, false}",Add a simplified representation of the exchange capacity between transmission and distribution grid level through a link. +electricity_distribution _grid_cost_factor,,,Multiplies the investment cost of the electricity distribution grid +,,, +electricity_grid _connection,--,"{true, false}",Add the cost of electricity grid connection for onshore wind and solar +H2_network,--,"{true, false}",Add option for new hydrogen pipelines +gas_network,--,"{true, false}","Add existing natural gas infrastructure, incl. LNG terminals, production and entry-points. The existing gas network is added with a lossless transport model. A length-weighted `k-edge augmentation algorithm `_ can be run to add new candidate gas pipelines such that all regions of the model can be connected to the gas network. When activated, all the gas demands are regionally disaggregated as well." +H2_retrofit,--,"{true, false}",Add option for retrofiting existing pipelines to transport hydrogen. +H2_retrofit_capacity _per_CH4,--,float,"The ratio for H2 capacity per original CH4 capacity of retrofitted pipelines. The `European Hydrogen Backbone (April, 2020) p.15 `_ 60% of original natural gas capacity could be used in cost-optimal case as H2 capacity." +gas_network_connectivity _upgrade ,--,float,The number of desired edge connectivity (k) in the length-weighted `k-edge augmentation algorithm `_ used for the gas network +gas_distribution_grid,--,"{true, false}",Add a gas distribution grid +gas_distribution_grid _cost_factor,,,Multiplier for the investment cost of the gas distribution grid +,,, +biomass_spatial,--,"{true, false}",Add option for resolving biomass demand regionally +biomass_transport,--,"{true, false}",Add option for transporting solid biomass between nodes +conventional_generation,,,Add a more detailed description of conventional carriers. Any power generation requires the consumption of fuel from nodes representing that fuel. +biomass_to_liquid,--,"{true, false}",Add option for transforming solid biomass into liquid fuel with the same properties as oil +biosng,--,"{true, false}",Add option for transforming solid biomass into synthesis gas with the same properties as natural gas diff --git a/doc/configtables/solar-thermal.csv b/doc/configtables/solar-thermal.csv new file mode 100644 index 00000000..4575ae0d --- /dev/null +++ b/doc/configtables/solar-thermal.csv @@ -0,0 +1,6 @@ +,Unit,Values,Description +clearsky_model ,--,"{‘simple’, ‘enhanced’}",Type of clearsky model for diffuse irradiation +orientation ,--,"{units of degrees, ‘latitude_optimal’}",Panel orientation with slope and azimuth +-- azimuth,float,units of degrees,The angle between the North and the sun with panels on the local horizon + +-- slope,float,units of degrees,The angle between the ground and the panels diff --git a/doc/configtables/solving.csv b/doc/configtables/solving.csv index cba28cbe..c252ff32 100644 --- a/doc/configtables/solving.csv +++ b/doc/configtables/solving.csv @@ -1,7 +1,7 @@ ,Unit,Values,Description options,,, --- formulation,--,"Any of {'angles', 'kirchhoff', 'cycles', 'ptdf'}","Specifies which variant of linearized power flow formulations to use in the optimisation problem. Recommended is 'kirchhoff'. Explained in `this article `_." -- load_shedding,bool/float,"{'true','false', float}","Add generators with very high marginal cost to simulate load shedding and avoid problem infeasibilities. If load shedding is a float, it denotes the marginal cost in EUR/kWh." +-- transmission_losses,int,"[0-9]","Add piecewise linear approximation of transmission losses based on n tangents. Defaults to 0, which means losses are ignored." -- noisy_costs,bool,"{'true','false'}","Add random noise to marginal cost of generators by :math:`\mathcal{U}(0.009,0,011)` and capital cost of lines and links by :math:`\mathcal{U}(0.09,0,11)`." -- min_iterations,--,int,"Minimum number of solving iterations in between which resistance and reactence (``x/r``) are updated for branches according to ``s_nom_opt`` of the previous run." -- max_iterations,--,int,"Maximum number of solving iterations in between which resistance and reactence (``x/r``) are updated for branches according to ``s_nom_opt`` of the previous run." diff --git a/doc/configtables/toplevel.csv b/doc/configtables/toplevel.csv index c4286490..5edc4be0 100644 --- a/doc/configtables/toplevel.csv +++ b/doc/configtables/toplevel.csv @@ -4,6 +4,7 @@ tutorial,bool,"{true, false}","Switch to retrieve the tutorial data set instead logging,,, -- level,--,"Any of {'INFO', 'WARNING', 'ERROR'}","Restrict console outputs to all infos, warning or errors only" -- format,--,"","Custom format for log messages. See `LogRecord `_ attributes." +<<<<<<< HEAD foresight,string,"{overnight, myopic, perfect}","Defaults to overnight scenarios." countries,--,"Subset of {'AL', 'AT', 'BA', 'BE', 'BG', 'CH', 'CZ', 'DE', 'DK', 'EE', 'ES', 'FI', 'FR', 'GB', 'GR', 'HR', 'HU', 'IE', 'IT', 'LT', 'LU', 'LV', 'ME', 'MK', 'NL', 'NO', 'PL', 'PT', 'RO', 'RS', 'SE', 'SI', 'SK'}","European countries defined by their `Two-letter country codes (ISO 3166-1) `_ which should be included in the energy system model." focus_weights,--,"Keys should be two-digit country codes (e.g. DE) and values should range between 0 and 1","Ratio of total clusters for particular countries. the remaining weight is distributed according to mean load. An example: ``focus_weights: 'DE': 0.6 'FR': 0.2``." @@ -20,3 +21,5 @@ enable,,, ======= co2_budget,--,"Dictionary with planning horizons as keys.","CO2 budget as a fraction of 1990 emissions. Overwritten if ``CO2Lx`` or ``cb`` are set in ``{sector_opts}`` wildcard" >>>>>>> master +======= +>>>>>>> origin/master diff --git a/doc/configuration.rst b/doc/configuration.rst index b85b8988..73d68ab8 100644 --- a/doc/configuration.rst +++ b/doc/configuration.rst @@ -18,15 +18,16 @@ Top-level configuration .. literalinclude:: ../config/config.default.yaml :language: yaml - :lines: 5-11,18-19,62,80-90 + :start-at: version: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/toplevel.csv -.. _scenario: +.. _run_cf: ``run`` ======= @@ -40,13 +41,34 @@ The ``run`` section is used for running and storing scenarios with different con .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: run: - :end-before: foresight: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/run.csv +.. _foresight_cf: + +``foresight`` +============= + +.. literalinclude:: ../config/config.default.yaml + :language: yaml + :start-at: foresight: + :end-at: foresight: + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/foresight.csv + +.. note:: + If you use myopic or perfect foresight, the planning horizon in + :ref:`planning_horizons` in scenario has to be set. + +.. _scenario: + ``scenario`` ============ @@ -83,13 +105,28 @@ An exemplary dependency graph (starting from the simplification rules) then look .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: scenario: - :end-before: countries: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/scenario.csv +.. _countries: + +``countries`` +============= + +.. literalinclude:: ../config/config.default.yaml + :language: yaml + :start-at: countries: + :end-before: # docs + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/countries.csv + .. _snapshots_cf: ``snapshots`` @@ -100,11 +137,11 @@ Specifies the temporal range to build an energy system model for as arguments to .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: snapshots: - :end-before: enable: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/snapshots.csv .. _enable_cf: @@ -117,13 +154,32 @@ Switches for some rules and optional features. .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: enable: - :end-before: co2_budget: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/enable.csv +.. _CO2_budget_cf: + +``co2 budget`` +============== + +.. literalinclude:: ../config/config.default.yaml + :language: yaml + :start-at: co2_budget: + :end-before: # docs + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/co2_budget.csv + +.. note:: + this parameter is over-ridden if ``CO2Lx`` or ``cb`` is set in + sector_opts. + .. _electricity_cf: ``electricity`` @@ -132,11 +188,11 @@ Switches for some rules and optional features. .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: electricity: - :end-before: atlite: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/electricity.csv .. _atlite_cf: @@ -149,11 +205,11 @@ Define and specify the ``atlite.Cutout`` used for calculating renewable potentia .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: atlite: - :end-before: renewable: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/atlite.csv .. _renewable_cf: @@ -171,9 +227,18 @@ Define and specify the ``atlite.Cutout`` used for calculating renewable potentia .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/onwind.csv +.. note:: + Notes on ``capacity_per_sqkm``. ScholzPhd Tab 4.3.1: 10MW/km^2 and assuming 30% fraction of the already restricted + area is available for installation of wind generators due to competing land use and likely public + acceptance issues. + +.. note:: + The default choice for corine ``grid_codes`` was based on Scholz, Y. (2012). Renewable energy based electricity supply at low costs + development of the REMix model and application for Europe. ( p.42 / p.28) + ``offwind-ac`` -------------- @@ -184,9 +249,19 @@ Define and specify the ``atlite.Cutout`` used for calculating renewable potentia .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/offwind-ac.csv +.. note:: + Notes on ``capacity_per_sqkm``. ScholzPhd Tab 4.3.1: 10MW/km^2 and assuming 20% fraction of the already restricted + area is available for installation of wind generators due to competing land use and likely public + acceptance issues. + +.. note:: + Notes on ``correction_factor``. Correction due to proxy for wake losses + from 10.1016/j.energy.2018.08.153 + until done more rigorously in #153 + ``offwind-dc`` --------------- @@ -197,9 +272,13 @@ Define and specify the ``atlite.Cutout`` used for calculating renewable potentia .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/offwind-dc.csv +.. note:: + both ``offwind-ac`` and ``offwind-dc`` have the same assumption on + ``capacity_per_sqkm`` and ``correction_factor``. + ``solar`` --------------- @@ -210,20 +289,29 @@ Define and specify the ``atlite.Cutout`` used for calculating renewable potentia .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/solar.csv +.. note:: + Notes on ``capacity_per_sqkm``. ScholzPhd Tab 4.3.1: 170 MW/km^2 and assuming 1% of the area can be used for solar PV panels. + Correction factor determined by comparing uncorrected area-weighted full-load hours to those + published in Supplementary Data to Pietzcker, Robert Carl, et al. "Using the sun to decarbonize the power + sector -- The economic potential of photovoltaics and concentrating solar + power." Applied Energy 135 (2014): 704-720. + This correction factor of 0.854337 may be in order if using reanalysis data. + for discussion refer to this + ``hydro`` --------------- .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: hydro: - :end-before: conventional: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/hydro.csv .. _lines_cf: @@ -241,11 +329,11 @@ overwrite the existing values. .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: conventional: - :end-before: lines: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/conventional.csv ``lines`` @@ -254,11 +342,11 @@ overwrite the existing values. .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: lines: - :end-before: links: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/lines.csv .. _links_cf: @@ -269,11 +357,11 @@ overwrite the existing values. .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: links: - :end-before: transformers: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/links.csv .. _transformers_cf: @@ -284,11 +372,11 @@ overwrite the existing values. .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: transformers: - :end-before: load: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/transformers.csv .. _load_cf: @@ -299,45 +387,13 @@ overwrite the existing values. .. literalinclude:: ../config/config.default.yaml :language: yaml :start-after: type: - :end-at: scaling_factor: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/load.csv -.. _costs_cf: - -``costs`` -============= - -.. literalinclude:: ../config/config.default.yaml - :language: yaml - :start-at: costs: - :end-before: clustering: - -.. csv-table:: - :header-rows: 1 - :widths: 25,7,22,30 - :file: configtables/costs.csv - - -.. _clustering_cf: - -``clustering`` -============== - -.. literalinclude:: ../config/config.default.yaml - :language: yaml - :start-at: clustering: - :end-before: solving: - -.. csv-table:: - :header-rows: 1 - :widths: 25,7,22,30 - :file: configtables/clustering.csv - - .. _energy_cf: ``energy`` @@ -346,14 +402,15 @@ overwrite the existing values. .. note:: Only used for sector-coupling studies. -.. warning:: - More comprehensive documentation for this segment will be released soon. - .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: energy: - :end-before: biomass: + :end-before: # docs +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/energy.csv .. _biomass_cf: @@ -363,13 +420,35 @@ overwrite the existing values. .. note:: Only used for sector-coupling studies. -.. warning:: - More comprehensive documentation for this segment will be released soon. - .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: biomass: - :end-before: solar_thermal: + :end-before: # docs + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/biomass.csv + +The list of available biomass is given by the category in `ENSPRESO_BIOMASS `_, namely: + +- Agricultural waste +- Manure solid, liquid +- Residues from landscape care +- Bioethanol barley, wheat, grain maize, oats, other cereals and rye +- Sugar from sugar beet +- Miscanthus, switchgrass, RCG +- Willow +- Poplar +- Sunflower, soya seed +- Rape seed +- Fuelwood residues +- FuelwoodRW +- C&P_RW +- Secondary Forestry residues - woodchips +- Sawdust +- Municipal waste +- Sludge .. _solar_thermal_cf: @@ -379,13 +458,15 @@ overwrite the existing values. .. note:: Only used for sector-coupling studies. -.. warning:: - More comprehensive documentation for this segment will be released soon. - .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: solar_thermal: - :end-before: existing_capacities: + :end-before: # docs + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/solar-thermal.csv .. _existing_capacities_cf: @@ -393,15 +474,17 @@ overwrite the existing values. ======================= .. note:: - Only used for sector-coupling studies. - -.. warning:: - More comprehensive documentation for this segment will be released soon. + Only used for sector-coupling studies. The value for grouping years are only used in myopic or perfect foresight scenarios. .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: existing_capacities: - :end-before: sector: + :end-before: # docs + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/existing_capacities.csv .. _sector_cf: @@ -411,13 +494,15 @@ overwrite the existing values. .. note:: Only used for sector-coupling studies. -.. warning:: - More comprehensive documentation for this segment will be released soon. - .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: sector: - :end-before: industry: + :end-before: # docs + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/sector.csv .. _industry_cf: @@ -427,13 +512,57 @@ overwrite the existing values. .. note:: Only used for sector-coupling studies. -.. warning:: - More comprehensive documentation for this segment will be released soon. - .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: industry: - :end-before: costs: + :end-before: # docs + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/industry.csv + +.. _costs_cf: + +``costs`` +============= + +.. literalinclude:: ../config/config.default.yaml + :language: yaml + :start-at: costs: + :end-before: # docs + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/costs.csv + +.. note:: + ``rooftop_share:`` are based on the potentials, assuming + (0.1 kW/m2 and 10 m2/person) + +.. _clustering_cf: + +``clustering`` +============== + +.. literalinclude:: ../config/config.default.yaml + :language: yaml + :start-at: clustering: + :end-before: # docs + +.. csv-table:: + :header-rows: 1 + :widths: 22,7,22,33 + :file: configtables/clustering.csv + +.. note:: + ``feature:`` in ``simplify_network:`` + are only relevant if ``hac`` were chosen in ``algorithm``. + +.. tip:: + use ``min`` in ``p_nom_max:`` for more ` + conservative assumptions. .. _solving_cf: @@ -443,16 +572,11 @@ overwrite the existing values. .. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: solving: - :end-before: plotting: + :end-before: # docs .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 - :file: configtables/solving.csv - -.. csv-table:: - :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/solving.csv .. _plotting_cf: @@ -469,5 +593,5 @@ overwrite the existing values. .. csv-table:: :header-rows: 1 - :widths: 25,7,22,30 + :widths: 22,7,22,33 :file: configtables/plotting.csv diff --git a/doc/costs.rst b/doc/costs.rst index 21938ced..5ddbb360 100644 --- a/doc/costs.rst +++ b/doc/costs.rst @@ -12,7 +12,7 @@ The database of cost assumptions is retrieved from the repository saved to a file ``data/costs_{year}.csv``. The ``config/config.yaml`` provides options to choose a reference year and use a specific version of the repository. -.. literalinclude:: ../config.default.yaml +.. literalinclude:: ../config/config.default.yaml :language: yaml :start-at: costs: :end-at: version: diff --git a/doc/foresight.rst b/doc/foresight.rst index 9b821060..c1be3443 100644 --- a/doc/foresight.rst +++ b/doc/foresight.rst @@ -87,8 +87,12 @@ evolve with the myopic approach: vehicle-to-grid services. - The annual biomass potential (default year and scenario for which potential is - taken is 2030, defined `here - `_) + taken is 2030, as defined in config) + +.. literalinclude:: ../config/test/config.myopic.yaml + :language: yaml + :start-at: biomass: + :end-at: year: Configuration @@ -108,7 +112,7 @@ optimized. For a myopic optimization, this is equivalent to the investment year. To set the investment years which are sequentially simulated for the myopic investment planning, select for example: -.. literalinclude:: ../test/config.myopic.yaml +.. literalinclude:: ../config/test/config.myopic.yaml :language: yaml :start-at: planning_horizons: :end-before: countries: @@ -203,6 +207,7 @@ The myopic code solves the network for the time steps included in network comprises additional generator, storage, and link capacities with p_nom_extendable=True. The non-solved network is saved in ``results/run_name/networks/prenetworks-brownfield``. + The base year is the first element in ``planning_horizons``. Step 1 is implemented with the rule add_baseyear for the base year and with the rule add_brownfield for the remaining planning_horizons. diff --git a/doc/index.rst b/doc/index.rst index 521f080b..d702a42c 100644 --- a/doc/index.rst +++ b/doc/index.rst @@ -31,7 +31,9 @@ PyPSA-Eur: A Sector-Coupled Open Optimisation Model of the European Energy Syste :target: https://api.reuse.software/info/github.com/pypsa/pypsa-eur :alt: REUSE -| +.. image:: https://img.shields.io/stackexchange/stackoverflow/t/pypsa + :target: https://stackoverflow.com/questions/tagged/pypsa + :alt: Stackoverflow PyPSA-Eur is an open model dataset of the European energy system at the transmission network level that covers the full ENTSO-E area. It covers demand @@ -222,7 +224,10 @@ The included ``.nc`` files are PyPSA network files which can be imported with Py n = pypsa.Network(filename) +Operating Systems +================= +The PyPSA-Eur workflow is continuously tested for Linux, macOS and Windows (WSL only). .. toctree:: @@ -274,4 +279,5 @@ The included ``.nc`` files are PyPSA network files which can be imported with Py licenses limitations contributing + support publications diff --git a/doc/preparation.rst b/doc/preparation.rst index b5a12062..5cdc8031 100644 --- a/doc/preparation.rst +++ b/doc/preparation.rst @@ -89,7 +89,7 @@ Rule ``build_powerplants`` .. _electricity_demand: Rule ``build_electricity_demand`` -============================= +================================== .. automodule:: build_electricity_demand diff --git a/doc/release_notes.rst b/doc/release_notes.rst index 9be10a4a..fd23e888 100644 --- a/doc/release_notes.rst +++ b/doc/release_notes.rst @@ -10,19 +10,45 @@ Release Notes Upcoming Release ================ +* ``param:`` section in rule definition are added to track changed settings in ``config.yaml``. The goal is to automatically re-execute rules whose parameters have changed. See `Non-file parameters for rules `_ in the snakemake documentation. * **Important:** The configuration files are now located in the ``config`` directory. This counts for ``config.default.yaml``, ``config.yaml`` as well as the test configuration files which are now located in ``config/test``. Config files that are still in the root directory will be ignored. * Bugfix: Correct typo in the CPLEX solver configuration in ``config.default.yaml``. +* Bugfix: Error in ``add_electricity`` where carriers were added multiple times to the network, resulting in a non-unique carriers error. + * Renamed script file from PyPSA-EUR ``build_load_data`` to ``build_electricity_demand`` and ``retrieve_load_data`` to ``retrieve_electricity_demand``. - +* Fix docs readthedocs built * Add plain hydrogen turbine as additional re-electrification option besides hydrogen fuel cell. Add switches for both re-electrification options under ``sector: hydrogen_turbine:`` and ``sector: hydrogen_fuel_cell:``. +* A new function named ``sanitize_carrier`` ensures that all unique carrier names are present in the network's carriers attribute, and adds nice names and colors for each carrier according to the provided configuration dictionary. + +* Additional tech_color are added to include previously unlisted carriers. + +* Remove ``vresutils`` dependency. + +* Added configuration option ``lines: max_extension:`` and ``links: + max_extension:``` to control the maximum capacity addition per line or link in + MW. + +* Add option to include a piecewise linear approximation of transmission losses, + e.g. by setting ``solving: options: transmission_losses: 2`` for an + approximation with two tangents. + +* Handling networks with links with multiple inputs/outputs no longer requires + to override component attributes. + +* Added configuration option ``enable: retrieve:`` to control whether data + retrieval rules from snakemake are enabled or not. Th default setting ``auto`` + will automatically detect and enable/disable the rules based on internet connectivity. + + + PyPSA-Eur 0.8.0 (18th March 2023) ================================= diff --git a/doc/requirements.txt b/doc/requirements.txt index d5c71da9..3e760c81 100644 --- a/doc/requirements.txt +++ b/doc/requirements.txt @@ -2,12 +2,13 @@ # # SPDX-License-Identifier: CC0-1.0 +setuptools sphinx sphinx_book_theme sphinxcontrib-bibtex +myst-parser # recommark is deprecated, https://stackoverflow.com/a/71660856/13573820 pypsa -vresutils>=0.3.1 powerplantmatching>=0.5.5 atlite>=0.2.9 dask[distributed] diff --git a/doc/supply_demand.rst b/doc/supply_demand.rst index 16242405..b043268b 100644 --- a/doc/supply_demand.rst +++ b/doc/supply_demand.rst @@ -133,12 +133,12 @@ The coefficient of performance (COP) of air- and ground-sourced heat pumps depen For the sink water temperature Tsink we assume 55 °C [`Config `_ file]. For the time- and location-dependent source temperatures Tsource, we rely on the `ERA5 `_ reanalysis weather data. The temperature differences are converted into COP time series using results from a regression analysis performed in the study by `Stafell et al. `_. For air-sourced heat pumps (ASHP), we use the function: .. math:: - COP (\Delta T) = 6.81 + 0.121\Delta T + 0.000630\Delta T^2 + COP (\Delta T) = 6.81 - 0.121\Delta T + 0.000630\Delta T^2 for ground-sourced heat pumps (GSHP), we use the function: .. math:: - COP(\Delta T) = 8.77 + 0.150\Delta T + 0.000734\Delta T^2 + COP(\Delta T) = 8.77 - 0.150\Delta T + 0.000734\Delta T^2 **Resistive heaters** diff --git a/doc/support.rst b/doc/support.rst new file mode 100644 index 00000000..1d512d59 --- /dev/null +++ b/doc/support.rst @@ -0,0 +1,14 @@ +.. + SPDX-FileCopyrightText: 2019-2023 The PyPSA-Eur Authors + + SPDX-License-Identifier: CC-BY-4.0 + +####################### +Support +####################### + +* In case of code-related **questions**, please post on `stack overflow `_. +* For non-programming related and more general questions please refer to the `mailing list `_. +* To **discuss** with other PyPSA users, organise projects, share news, and get in touch with the community you can use the `discord server `_. +* For **bugs and feature requests**, please use the `issue tracker `_. +* We strongly welcome anyone interested in providing **contributions** to this project. If you have any ideas, suggestions or encounter problems, feel invited to file issues or make pull requests on `Github `_. For further information on how to contribute, please refer to :ref:`contributing`. diff --git a/doc/tutorial.rst b/doc/tutorial.rst index ed03b10d..0e424abd 100644 --- a/doc/tutorial.rst +++ b/doc/tutorial.rst @@ -32,7 +32,7 @@ configuration, execute .. code:: bash :class: full-width - snakemake -call results/test-elec/networks/elec_s_6_ec_lcopt_Co2L-24H.nc --configfile test/config.electricity.yaml + snakemake -call results/test-elec/networks/elec_s_6_ec_lcopt_Co2L-24H.nc --configfile config/test/config.electricity.yaml This configuration is set to download a reduced data set via the rules :mod:`retrieve_databundle`, :mod:`retrieve_natura_raster`, :mod:`retrieve_cutout`. @@ -43,21 +43,21 @@ How to configure runs? The model can be adapted to only include selected countries (e.g. Belgium) instead of all European countries to limit the spatial scope. -.. literalinclude:: ../test/config.electricity.yaml +.. literalinclude:: ../config/test/config.electricity.yaml :language: yaml :start-at: countries: :end-before: snapshots: Likewise, the example's temporal scope can be restricted (e.g. to a single week). -.. literalinclude:: ../test/config.electricity.yaml +.. literalinclude:: ../config/test/config.electricity.yaml :language: yaml :start-at: snapshots: :end-before: electricity: It is also possible to allow less or more carbon-dioxide emissions. Here, we limit the emissions of Belgium to 100 Mt per year. -.. literalinclude:: ../test/config.electricity.yaml +.. literalinclude:: ../config/test/config.electricity.yaml :language: yaml :start-at: electricity: :end-before: extendable_carriers: @@ -65,7 +65,7 @@ It is also possible to allow less or more carbon-dioxide emissions. Here, we lim PyPSA-Eur also includes a database of existing conventional powerplants. We can select which types of existing powerplants we like to be extendable: -.. literalinclude:: ../test/config.electricity.yaml +.. literalinclude:: ../config/test/config.electricity.yaml :language: yaml :start-at: extendable_carriers: :end-before: renewable_carriers: @@ -74,7 +74,7 @@ To accurately model the temporal and spatial availability of renewables such as wind and solar energy, we rely on historical weather data. It is advisable to adapt the required range of coordinates to the selection of countries. -.. literalinclude:: ../test/config.electricity.yaml +.. literalinclude:: ../config/test/config.electricity.yaml :language: yaml :start-at: atlite: :end-before: renewable: @@ -83,7 +83,7 @@ We can also decide which weather data source should be used to calculate potentials and capacity factor time-series for each carrier. For example, we may want to use the ERA-5 dataset for solar and not the default SARAH-2 dataset. -.. literalinclude:: ../test/config.electricity.yaml +.. literalinclude:: ../config/test/config.electricity.yaml :language: yaml :start-at: solar: :end-at: cutout: @@ -91,7 +91,7 @@ want to use the ERA-5 dataset for solar and not the default SARAH-2 dataset. Finally, it is possible to pick a solver. For instance, this tutorial uses the open-source solver GLPK. -.. literalinclude:: ../test/config.electricity.yaml +.. literalinclude:: ../config/test/config.electricity.yaml :language: yaml :start-at: solver: :end-before: plotting: @@ -115,7 +115,7 @@ clustered down to 6 buses and every 24 hours aggregated to one snapshot. The com .. code:: bash - snakemake -call results/test-elec/networks/elec_s_6_ec_lcopt_Co2L-24H.nc --configfile test/config.electricity.yaml + snakemake -call results/test-elec/networks/elec_s_6_ec_lcopt_Co2L-24H.nc --configfile config/test/config.electricity.yaml orders ``snakemake`` to run the rule :mod:`solve_network` that produces the solved network and stores it in ``results/networks`` with the name ``elec_s_6_ec_lcopt_Co2L-24H.nc``: @@ -288,18 +288,18 @@ You can produce any output file occurring in the ``Snakefile`` by running For example, you can explore the evolution of the PyPSA networks by running -#. ``snakemake resources/networks/base.nc -call --configfile test/config.electricity.yaml`` -#. ``snakemake resources/networks/elec.nc -call --configfile test/config.electricity.yaml`` -#. ``snakemake resources/networks/elec_s.nc -call --configfile test/config.electricity.yaml`` -#. ``snakemake resources/networks/elec_s_6.nc -call --configfile test/config.electricity.yaml`` -#. ``snakemake resources/networks/elec_s_6_ec_lcopt_Co2L-24H.nc -call --configfile test/config.electricity.yaml`` +#. ``snakemake resources/networks/base.nc -call --configfile config/test/config.electricity.yaml`` +#. ``snakemake resources/networks/elec.nc -call --configfile config/test/config.electricity.yaml`` +#. ``snakemake resources/networks/elec_s.nc -call --configfile config/test/config.electricity.yaml`` +#. ``snakemake resources/networks/elec_s_6.nc -call --configfile config/test/config.electricity.yaml`` +#. ``snakemake resources/networks/elec_s_6_ec_lcopt_Co2L-24H.nc -call --configfile config/test/config.electricity.yaml`` To run all combinations of wildcard values provided in the ``config/config.yaml`` under ``scenario:``, you can use the collection rule ``solve_elec_networks``. .. code:: bash - snakemake -call solve_elec_networks --configfile test/config.electricity.yaml + snakemake -call solve_elec_networks --configfile config/test/config.electricity.yaml If you now feel confident and want to tackle runs with larger temporal and spatial scope, clean-up the repository and after modifying the ``config/config.yaml`` file diff --git a/doc/tutorial_sector.rst b/doc/tutorial_sector.rst index 29971e3a..faa8adca 100644 --- a/doc/tutorial_sector.rst +++ b/doc/tutorial_sector.rst @@ -35,7 +35,7 @@ configuration options. In the example below, we say that the gas network should be added and spatially resolved. We also say that the existing gas network may be retrofitted to transport hydrogen instead. -.. literalinclude:: ../test/config.overnight.yaml +.. literalinclude:: ../config/test/config.overnight.yaml :language: yaml :start-at: sector: :end-before: solving: @@ -45,7 +45,7 @@ Documentation for all options will be added successively to :ref:`config`. Scenarios can be defined like for electricity-only studies, but with additional wildcard options. -.. literalinclude:: ../test/config.overnight.yaml +.. literalinclude:: ../config/test/config.overnight.yaml :language: yaml :start-at: scenario: :end-before: countries: @@ -59,7 +59,7 @@ To run an overnight / greenfiled scenario with the specifications above, run .. code:: bash - snakemake -call --configfile test/config.overnight.yaml all + snakemake -call --configfile config/test/config.overnight.yaml all which will result in the following *additional* jobs ``snakemake`` wants to run on top of those already included in the electricity-only tutorial: @@ -294,7 +294,7 @@ Scenarios can be defined like for electricity-only studies, but with additional wildcard options. For the myopic foresight mode, the ``{planning_horizons}`` wildcard defines the sequence of investment horizons. -.. literalinclude:: ../test/config.myopic.yaml +.. literalinclude:: ../config/test/config.myopic.yaml :language: yaml :start-at: scenario: :end-before: countries: @@ -304,7 +304,7 @@ For allowed wildcard values, refer to :ref:`wildcards`. In the myopic foresight mode, you can tweak for instance exogenously given transition paths, like the one for the share of primary steel production we change below: -.. literalinclude:: ../test/config.myopic.yaml +.. literalinclude:: ../config/test/config.myopic.yaml :language: yaml :start-at: industry: :end-before: solving: @@ -318,7 +318,7 @@ To run a myopic foresight scenario with the specifications above, run .. code:: bash - snakemake -call --configfile test/config.myopic.yaml all + snakemake -call --configfile config/test/config.myopic.yaml all which will result in the following *additional* jobs ``snakemake`` wants to run: diff --git a/doc/wildcards.rst b/doc/wildcards.rst index 30c58929..75eec192 100644 --- a/doc/wildcards.rst +++ b/doc/wildcards.rst @@ -117,6 +117,23 @@ The ``{sector_opts}`` wildcard .. warning:: More comprehensive documentation for this wildcard will be added soon. + To really understand the options here, look in scripts/prepare_sector_network.py + + # Co2Lx specifies the CO2 target in x% of the 1990 values; default will give default (5%); + # Co2L0p25 will give 25% CO2 emissions; Co2Lm0p05 will give 5% negative emissions + # xH is the temporal resolution; 3H is 3-hourly, i.e. one snapshot every 3 hours + # single letters are sectors: T for land transport, H for building heating, + # B for biomass supply, I for industry, shipping and aviation, + # A for agriculture, forestry and fishing + # solar+c0.5 reduces the capital cost of solar to 50\% of reference value + # solar+p3 multiplies the available installable potential by factor 3 + # seq400 sets the potential of CO2 sequestration to 400 Mt CO2 per year + # dist{n} includes distribution grids with investment cost of n times cost in data/costs.csv + # for myopic/perfect foresight cb states the carbon budget in GtCO2 (cumulative + # emissions throughout the transition path in the timeframe determined by the + # planning_horizons), be:beta decay; ex:exponential decay + # cb40ex0 distributes a carbon budget of 40 GtCO2 following an exponential + # decay with initial growth rate 0 The ``{sector_opts}`` wildcard is only used for sector-coupling studies. diff --git a/envs/environment.fixed.yaml b/envs/environment.fixed.yaml index 7d8fcc45..1ff9313d 100644 --- a/envs/environment.fixed.yaml +++ b/envs/environment.fixed.yaml @@ -226,7 +226,7 @@ dependencies: - nspr=4.35 - nss=3.88 - numexpr=2.8.3 -- numpy=1.23.5 +- numpy=1.24 - openjdk=17.0.3 - openjpeg=2.5.0 - openpyxl=3.1.0 @@ -378,4 +378,3 @@ dependencies: - highspy==1.5.0.dev0 - pybind11==2.10.3 - tsam==2.2.2 - - vresutils==0.3.1 diff --git a/envs/environment.yaml b/envs/environment.yaml index 0a9891a5..7e119a2f 100644 --- a/envs/environment.yaml +++ b/envs/environment.yaml @@ -10,7 +10,6 @@ dependencies: - python>=3.8 - pip -- pypsa>=0.21.3 - atlite>=0.2.9 - dask @@ -25,7 +24,7 @@ dependencies: - pytables - lxml - powerplantmatching>=0.5.5 -- numpy<1.24 +- numpy - pandas>=1.4 - geopandas>=0.11.0 - xarray @@ -55,5 +54,5 @@ dependencies: - rasterio!=1.2.10 - pip: - - vresutils>=0.3.1 - tsam>=1.1.0 + - git+https://github.com/PyPSA/PyPSA.git@master diff --git a/rules/build_electricity.smk b/rules/build_electricity.smk index fdaedab9..8c16b058 100644 --- a/rules/build_electricity.smk +++ b/rules/build_electricity.smk @@ -21,12 +21,16 @@ if config["enable"].get("prepare_links_p_nom", False): if config["enable"].get("retrieve_opsd_load_data", True): rule build_electricity_demand: + params: + snapshots=config["snapshots"], + countries=config["countries"], + load=config["load"], input: ancient("data/load_raw.csv"), output: - RESOURCES + "load{weather_year}.csv", + RESOURCES + "load.csv", log: - LOGS + "build_electricity_demand{weather_year}.log", + LOGS + "build_electricity_demand.log", resources: mem_mb=5000, conda: @@ -52,7 +56,12 @@ if config["enable"].get("retrieve_artificial_load_data", False): "../scripts/build_artificial_load_data.py" + rule build_powerplants: + params: + powerplants_filter=config["electricity"]["powerplants_filter"], + custom_powerplants=config["electricity"]["custom_powerplants"], + countries=config["countries"], input: base_network=RESOURCES + "networks/base.nc", custom_powerplants="data/custom_powerplants.csv", @@ -70,6 +79,9 @@ rule build_powerplants: rule base_network: + params: + countries=config["countries"], + snapshots=config["snapshots"], input: eg_buses="data/entsoegridkit/buses.csv", eg_lines="data/entsoegridkit/lines.csv", @@ -98,6 +110,8 @@ rule base_network: rule build_shapes: + params: + countries=config["countries"], input: naturalearth=ancient("data/bundle/naturalearth/ne_10m_admin_0_countries.shp"), eez=ancient("data/bundle/eez/World_EEZ_v8_2014.shp"), @@ -123,6 +137,8 @@ rule build_shapes: rule build_bus_regions: + params: + countries=config["countries"], input: country_shapes=RESOURCES + "country_shapes.geojson", offshore_shapes=RESOURCES + "offshore_shapes.geojson", @@ -146,6 +162,9 @@ if config["enable"].get("build_cutout", False): ruleorder: build_cutout_year > build_cutout rule build_cutout: + params: + snapshots=config["snapshots"], + cutouts=config["atlite"]["cutouts"], input: regions_onshore=RESOURCES + "regions_onshore.geojson", regions_offshore=RESOURCES + "regions_offshore.geojson", @@ -224,6 +243,8 @@ rule build_ship_raster: rule build_renewable_profiles: + params: + renewable=config["renewable"], input: base_network=RESOURCES + "networks/base.nc", corine=ancient("data/bundle/corine/g250_clc06_V18_5.tif"), @@ -273,6 +294,9 @@ rule build_renewable_profiles: rule build_hydro_profile: + params: + hydro=config["renewable"]["hydro"], + countries=config["countries"], input: country_shapes=RESOURCES + "country_shapes.geojson", eia_hydro_generation="data/eia_hydro_annual_generation.csv", @@ -293,6 +317,14 @@ rule build_hydro_profile: rule add_electricity: + params: + length_factor=config["lines"]["length_factor"], + scaling_factor=config["load"]["scaling_factor"], + countries=config["countries"], + renewable=config["renewable"], + electricity=config["electricity"], + conventional=config.get("conventional", {}), + costs=config["costs"], input: **{ f"profile_{tech}": RESOURCES + f"profile{weather_year}_{tech}.nc" @@ -328,6 +360,15 @@ rule add_electricity: rule simplify_network: + params: + simplify_network=config["clustering"]["simplify_network"], + aggregation_strategies=config["clustering"].get("aggregation_strategies", {}), + focus_weights=config.get("focus_weights", None), + renewable_carriers=config["electricity"]["renewable_carriers"], + max_hours=config["electricity"]["max_hours"], + length_factor=config["lines"]["length_factor"], + p_max_pu=config["links"].get("p_max_pu", 1.0), + costs=config["costs"], input: network=RESOURCES + "networks/elec{weather_year}.nc", tech_costs=COSTS, @@ -355,6 +396,16 @@ rule simplify_network: rule cluster_network: + params: + cluster_network=config["clustering"]["cluster_network"], + aggregation_strategies=config["clustering"].get("aggregation_strategies", {}), + custom_busmap=config["enable"].get("custom_busmap", False), + focus_weights=config.get("focus_weights", None), + renewable_carriers=config["electricity"]["renewable_carriers"], + conventional_carriers=config["electricity"].get("conventional_carriers", []), + max_hours=config["electricity"]["max_hours"], + length_factor=config["lines"]["length_factor"], + costs=config["costs"], input: network=RESOURCES + "networks/elec{weather_year}_s{simpl}.nc", regions_onshore=RESOURCES @@ -390,6 +441,10 @@ rule cluster_network: rule add_extra_components: + params: + extendable_carriers=config["electricity"]["extendable_carriers"], + max_hours=config["electricity"]["max_hours"], + costs=config["costs"], input: network=RESOURCES + "networks/elec{weather_year}_s{simpl}_{clusters}.nc", tech_costs=COSTS, @@ -409,6 +464,14 @@ rule add_extra_components: rule prepare_network: + params: + links=config["links"], + lines=config["lines"], + co2base=config["electricity"]["co2base"], + co2limit=config["electricity"]["co2limit"], + gaslimit=config["electricity"].get("gaslimit"), + max_hours=config["electricity"]["max_hours"], + costs=config["costs"], input: RESOURCES + "networks/elec{weather_year}_s{simpl}_{clusters}_ec.nc", tech_costs=COSTS, diff --git a/rules/build_sector.smk b/rules/build_sector.smk index 38d5406f..c430a2ac 100644 --- a/rules/build_sector.smk +++ b/rules/build_sector.smk @@ -140,6 +140,8 @@ if not (config["sector"]["gas_network"] or config["sector"]["H2_retrofit"]): rule build_heat_demands: + params: + snapshots=config["snapshots"], input: pop_layout=RESOURCES + "pop_layout{weather_year}_{scope}.nc", regions_onshore=RESOURCES + "regions_onshore_elec{weather_year}_s{simpl}_{clusters}.geojson", @@ -160,6 +162,8 @@ rule build_heat_demands: rule build_temperature_profiles: + params: + snapshots=config["snapshots"], input: pop_layout=RESOURCES + "pop_layout{weather_year}_{scope}.nc", regions_onshore=RESOURCES + "regions_onshore_elec{weather_year}_s{simpl}_{clusters}.geojson", @@ -181,6 +185,8 @@ rule build_temperature_profiles: rule build_cop_profiles: + params: + heat_pump_sink_T=config["sector"]["heat_pump_sink_T"], input: temp_soil_total=RESOURCES + "temp_soil_total_elec{weather_year}_s{simpl}_{clusters}.nc", temp_soil_rural=RESOURCES + "temp_soil_rural_elec{weather_year}_s{simpl}_{clusters}.nc", @@ -208,6 +214,9 @@ rule build_cop_profiles: rule build_solar_thermal_profiles: + params: + snapshots=config["snapshots"], + solar_thermal=config["solar_thermal"], input: pop_layout=RESOURCES + "pop_layout{weather_year}_{scope}.nc", regions_onshore=RESOURCES + "regions_onshore_elec{weather_year}_s{simpl}_{clusters}.geojson", @@ -228,6 +237,9 @@ rule build_solar_thermal_profiles: rule build_energy_totals: + params: + countries=config["countries"], + energy=config["energy"], input: nuts3_shapes=RESOURCES + "nuts3_shapes.geojson", co2="data/eea/UNFCCC_v23.csv", @@ -271,6 +283,8 @@ rule build_heat_totals: rule build_biomass_potentials: + params: + biomass=config["biomass"], input: enspreso_biomass=HTTP.remote( "https://cidportal.jrc.ec.europa.eu/ftp/jrc-opendata/ENSPRESO/ENSPRESO_BIOMASS.xlsx", @@ -333,6 +347,10 @@ if not config["sector"]["biomass_transport"]: if config["sector"]["regional_co2_sequestration_potential"]["enable"]: rule build_sequestration_potentials: + params: + sequestration_potential=config["sector"][ + "regional_co2_sequestration_potential" + ], input: sequestration_potential=HTTP.remote( "https://raw.githubusercontent.com/ericzhou571/Co2Storage/main/resources/complete_map_2020_unit_Mt.geojson", @@ -386,6 +404,8 @@ rule build_salt_cavern_potentials: rule build_ammonia_production: + params: + countries=config["countries"], input: usgs="data/myb1-2017-nitro.xls", output: @@ -404,6 +424,9 @@ rule build_ammonia_production: rule build_industry_sector_ratios: + params: + industry=config["industry"], + ammonia=config["sector"].get("ammonia", False), input: ammonia_production=RESOURCES + "ammonia_production.csv", idees="data/jrc-idees-2015", @@ -423,6 +446,9 @@ rule build_industry_sector_ratios: rule build_industrial_production_per_country: + params: + industry=config["industry"], + countries=config["countries"], input: ammonia_production=RESOURCES + "ammonia_production.csv", jrc="data/jrc-idees-2015", @@ -444,6 +470,8 @@ rule build_industrial_production_per_country: rule build_industrial_production_per_country_tomorrow: + params: + industry=config["industry"], input: industrial_production_per_country=RESOURCES + "industrial_production_per_country.csv", @@ -468,6 +496,9 @@ rule build_industrial_production_per_country_tomorrow: rule build_industrial_distribution_key: + params: + hotmaps_locate_missing=config["industry"].get("hotmaps_locate_missing", False), + countries=config["countries"], input: regions_onshore=RESOURCES + "regions_onshore_elec{weather_year}_s{simpl}_{clusters}.geojson", clustered_pop_layout=RESOURCES + "pop_layout_elec{weather_year}_s{simpl}_{clusters}.csv", @@ -542,6 +573,9 @@ rule build_industrial_energy_demand_per_node: rule build_industrial_energy_demand_per_country_today: + params: + countries=config["countries"], + industry=config["industry"], input: jrc="data/jrc-idees-2015", ammonia_production=RESOURCES + "ammonia_production.csv", @@ -588,6 +622,9 @@ rule build_industrial_energy_demand_per_node_today: if config["sector"]["retrofitting"]["retro_endogen"]: rule build_retro_cost: + params: + retrofitting=config["sector"]["retrofitting"], + countries=config["countries"], input: building_stock="data/retro/data_building_stock.csv", data_tabula="data/retro/tabula-calculator-calcsetbuilding.csv", @@ -658,6 +695,9 @@ rule build_shipping_demand: rule build_transport_demand: + params: + snapshots=config["snapshots"], + sector=config["sector"], input: clustered_pop_layout=RESOURCES + "pop_layout_elec{weather_year}_s{simpl}_{clusters}.csv", pop_weighted_energy_totals=RESOURCES @@ -684,14 +724,27 @@ rule build_transport_demand: rule prepare_sector_network: params: + co2_budget=config["co2_budget"], + conventional_carriers=config["existing_capacities"]["conventional_carriers"], + foresight=config["foresight"], + costs=config["costs"], + sector=config["sector"], + industry=config["industry"], + pypsa_eur=config["pypsa_eur"], + length_factor=config["lines"]["length_factor"], + planning_horizons=config["scenario"]["planning_horizons"], + countries=config["countries"], + emissions_scope=config["energy"]["emissions"], + eurostat_report_year=config["energy"]["eurostat_report_year"], RDIR=RDIR, input: **build_retro_cost_output, **build_biomass_transport_costs_output, **gas_infrastructure, **build_sequestration_potentials_output, - overrides="data/override_component_attrs", network=RESOURCES + "networks/elec{weather_year}_s{simpl}_{clusters}_ec_l{ll}_{opts}.nc", + energy_totals_name=RESOURCES + "energy_totals.csv", + eurostat=input_eurostat, pop_weighted_energy_totals=RESOURCES + "pop_weighted_energy_totals{weather_year}_s{simpl}_{clusters}.csv", pop_weighted_heat_totals=RESOURCES diff --git a/rules/common.smk b/rules/common.smk index 647b531a..ab6251d7 100644 --- a/rules/common.smk +++ b/rules/common.smk @@ -23,6 +23,28 @@ def memory(w): return int(factor * (10000 + 195 * int(w.clusters))) +# Check if the workflow has access to the internet by trying to access the HEAD of specified url +def has_internet_access(url="www.zenodo.org") -> bool: + import http.client as http_client + + # based on answer and comments from + # https://stackoverflow.com/a/29854274/11318472 + conn = http_client.HTTPConnection(url, timeout=5) # need access to zenodo anyway + try: + conn.request("HEAD", "/") + return True + except: + return False + finally: + conn.close() + + +def input_eurostat(w): + # 2016 includes BA, 2017 does not + report_year = config["energy"]["eurostat_report_year"] + return f"data/eurostat-energy_balances-june_{report_year}_edition" + + def solved_previous_horizon(wildcards): planning_horizons = config["scenario"]["planning_horizons"] i = planning_horizons.index(int(wildcards.planning_horizons)) diff --git a/rules/postprocess.smk b/rules/postprocess.smk index 0a3260eb..5320652a 100644 --- a/rules/postprocess.smk +++ b/rules/postprocess.smk @@ -9,8 +9,10 @@ localrules: rule plot_network: + params: + foresight=config["foresight"], + plotting=config["plotting"], input: - overrides="data/override_component_attrs", network=RESULTS + "postnetworks/elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}.nc", regions=RESOURCES @@ -68,9 +70,12 @@ rule copy_conda_env: rule make_summary: params: + foresight=config["foresight"], + costs=config["costs"], + snapshots=config["snapshots"], + scenario=config["scenario"], RDIR=RDIR, input: - overrides="data/override_component_attrs", networks=expand( RESULTS + "postnetworks/elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}.nc", @@ -115,6 +120,10 @@ rule make_summary: rule plot_summary: params: + countries=config["countries"], + planning_horizons=config["scenario"]["planning_horizons"], + sector_opts=config["scenario"]["sector_opts"], + plotting=config["plotting"], RDIR=RDIR, input: costs=RESULTS + "csvs/costs.csv", diff --git a/rules/retrieve.smk b/rules/retrieve.smk index 112aff1f..1ff52657 100644 --- a/rules/retrieve.smk +++ b/rules/retrieve.smk @@ -2,7 +2,14 @@ # # SPDX-License-Identifier: MIT -if config["enable"].get("retrieve_databundle", True): +if config["enable"].get("retrieve", "auto") == "auto": + config["enable"]["retrieve"] = has_internet_access() + +if config["enable"]["retrieve"] is False: + print("Datafile downloads disabled in config[retrieve] or no internet access.") + + +if config["enable"]["retrieve"] and config["enable"].get("retrieve_databundle", True): datafiles = [ "ch_cantons.csv", "je-e-21.03.02.xls", @@ -32,7 +39,7 @@ if config["enable"].get("retrieve_databundle", True): "../scripts/retrieve_databundle.py" -if config["enable"].get("retrieve_cutout", True): +if config["enable"]["retrieve"] and config["enable"].get("retrieve_cutout", True): rule retrieve_cutout: input: @@ -51,7 +58,7 @@ if config["enable"].get("retrieve_cutout", True): move(input[0], output[0]) -if config["enable"].get("retrieve_cost_data", True): +if config["enable"]["retrieve"] and config["enable"].get("retrieve_cost_data", True): rule retrieve_cost_data: input: @@ -73,7 +80,9 @@ if config["enable"].get("retrieve_cost_data", True): move(input[0], output[0]) -if config["enable"].get("retrieve_natura_raster", True): +if config["enable"]["retrieve"] and config["enable"].get( + "retrieve_natura_raster", True +): rule retrieve_natura_raster: input: @@ -93,7 +102,9 @@ if config["enable"].get("retrieve_natura_raster", True): move(input[0], output[0]) -if config["enable"].get("retrieve_sector_databundle", True): +if config["enable"]["retrieve"] and config["enable"].get( + "retrieve_sector_databundle", True +): datafiles = [ "data/eea/UNFCCC_v23.csv", "data/switzerland-sfoe/switzerland-new_format.csv", @@ -119,7 +130,9 @@ if config["enable"].get("retrieve_sector_databundle", True): "../scripts/retrieve_sector_databundle.py" -if config["sector"]["gas_network"] or config["sector"]["H2_retrofit"]: +if config["enable"]["retrieve"] and ( + config["sector"]["gas_network"] or config["sector"]["H2_retrofit"] +): datafiles = [ "IGGIELGN_LNGs.geojson", "IGGIELGN_BorderPoints.geojson", @@ -138,7 +151,7 @@ if config["sector"]["gas_network"] or config["sector"]["H2_retrofit"]: script: "../scripts/retrieve_gas_infrastructure_data.py" -if config["enable"].get("retrieve_opsd_load_data", True): +if config["enable"]["retrieve"] and config["enable"].get("retrieve_opsd_load_data", True): rule retrieve_electricity_demand: input: @@ -158,7 +171,7 @@ if config["enable"].get("retrieve_opsd_load_data", True): move(input[0], output[0]) -if config["enable"].get('retrieve_artificial_load_data', False): +if config["enable"]["retrieve"] and config["enable"].get('retrieve_artificial_load_data', False): rule retrieve_artificial_load_data: input: HTTP.remote("https://zenodo.org/record/7070438/files/demand_hourly.csv", keep_local=True, static=True) @@ -169,19 +182,21 @@ if config["enable"].get('retrieve_artificial_load_data', False): run: move(input[0], output[0]) -rule retrieve_ship_raster: - input: - HTTP.remote( - "https://zenodo.org/record/6953563/files/shipdensity_global.zip", - keep_local=True, - static=True, - ), - output: - "data/shipdensity_global.zip", - log: - LOGS + "retrieve_ship_raster.log", - resources: - mem_mb=5000, - retries: 2 - run: - move(input[0], output[0]) +if config["enable"]["retrieve"]: + + rule retrieve_ship_raster: + input: + HTTP.remote( + "https://zenodo.org/record/6953563/files/shipdensity_global.zip", + keep_local=True, + static=True, + ), + output: + "data/shipdensity_global.zip", + log: + LOGS + "retrieve_ship_raster.log", + resources: + mem_mb=5000, + retries: 2 + run: + move(input[0], output[0]) diff --git a/rules/solve_electricity.smk b/rules/solve_electricity.smk index c63879aa..5eb2fa7b 100644 --- a/rules/solve_electricity.smk +++ b/rules/solve_electricity.smk @@ -4,6 +4,13 @@ rule solve_network: + params: + solving=config["solving"], + foresight=config["foresight"], + planning_horizons=config["scenario"]["planning_horizons"], + co2_sequestration_potential=config["sector"].get( + "co2_sequestration_potential", 200 + ), input: network=RESOURCES + "networks/elec{weather_year}_s{simpl}_{clusters}_ec_l{ll}_{opts}.nc", @@ -17,8 +24,6 @@ rule solve_network: ), python=LOGS + "solve_network/elec{weather_year}_s{simpl}_{clusters}_ec_l{ll}_{opts}_python.log", - memory=LOGS - + "solve_network/elec{weather_year}_s{simpl}_{clusters}_ec_l{ll}_{opts}_memory.log", benchmark: ( BENCHMARKS @@ -36,6 +41,8 @@ rule solve_network: rule solve_operations_network: + params: + options=config["solving"]["options"], input: network=RESULTS + "networks/elec{weather_year}_s{simpl}_{clusters}_ec_l{ll}_{opts}.nc", @@ -49,8 +56,6 @@ rule solve_operations_network: ), python=LOGS + "solve_operations_network/elec{weather_year}_s{simpl}_{clusters}_ec_l{ll}_{opts}_op_python.log", - memory=LOGS - + "solve_operations_network/elec{weather_year}_s{simpl}_{clusters}_ec_l{ll}_{opts}_op_memory.log", benchmark: ( BENCHMARKS diff --git a/rules/solve_myopic.smk b/rules/solve_myopic.smk index ef9a5ade..bfaa3ad3 100644 --- a/rules/solve_myopic.smk +++ b/rules/solve_myopic.smk @@ -4,8 +4,12 @@ rule add_existing_baseyear: + params: + baseyear=config["scenario"]["planning_horizons"][0], + sector=config["sector"], + existing_capacities=config["existing_capacities"], + costs=config["costs"], input: - overrides="data/override_component_attrs", network=RESULTS + "prenetworks/elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}.nc", powerplants=RESOURCES + "powerplants.csv", @@ -45,8 +49,11 @@ rule add_existing_baseyear: rule add_brownfield: + params: + H2_retrofit=config["sector"]["H2_retrofit"], + H2_retrofit_capacity_per_CH4=config["sector"]["H2_retrofit_capacity_per_CH4"], + threshold_capacity=config["existing_capacities"]["threshold_capacity"], input: - overrides="data/override_component_attrs", network=RESULTS + "prenetworks/elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}.nc", network_p=solved_previous_horizon, #solved network at previous time step @@ -79,8 +86,14 @@ ruleorder: add_existing_baseyear > add_brownfield rule solve_sector_network_myopic: + params: + solving=config["solving"], + foresight=config["foresight"], + planning_horizons=config["scenario"]["planning_horizons"], + co2_sequestration_potential=config["sector"].get( + "co2_sequestration_potential", 200 + ), input: - overrides="data/override_component_attrs", network=RESULTS + "prenetworks-brownfield/elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}.nc", costs="data/costs_{planning_horizons}.csv", @@ -95,8 +108,6 @@ rule solve_sector_network_myopic: + "elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}_solver.log", python=LOGS + "elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}_python.log", - memory=LOGS - + "elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}_memory.log", threads: 4 resources: mem_mb=config["solving"]["mem"], diff --git a/rules/solve_overnight.smk b/rules/solve_overnight.smk index e79efca2..86f0724d 100644 --- a/rules/solve_overnight.smk +++ b/rules/solve_overnight.smk @@ -4,8 +4,14 @@ rule solve_sector_network: + params: + solving=config["solving"], + foresight=config["foresight"], + planning_horizons=config["scenario"]["planning_horizons"], + co2_sequestration_potential=config["sector"].get( + "co2_sequestration_potential", 200 + ), input: - overrides="data/override_component_attrs", network=RESULTS + "prenetworks/elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}.nc", costs="data/costs_{}.csv".format(config["costs"]["year"]), @@ -21,8 +27,6 @@ rule solve_sector_network: + "elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}_solver.log", python=LOGS + "elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}_python.log", - memory=LOGS - + "elec{weather_year}_s{simpl}_{clusters}_l{ll}_{opts}_{sector_opts}_{planning_horizons}_memory.log", threads: config["solving"]["solver"].get("threads", 4) resources: mem_mb=config["solving"]["mem"], diff --git a/scripts/_helpers.py b/scripts/_helpers.py index a67fb105..fc7bc9e0 100644 --- a/scripts/_helpers.py +++ b/scripts/_helpers.py @@ -72,92 +72,6 @@ def configure_logging(snakemake, skip_handlers=False): logging.basicConfig(**kwargs) -def load_network(import_name=None, custom_components=None): - """ - Helper for importing a pypsa.Network with additional custom components. - - Parameters - ---------- - import_name : str - As in pypsa.Network(import_name) - custom_components : dict - Dictionary listing custom components. - For using ``snakemake.config['override_components']`` - in ``config/config.yaml`` define: - - .. code:: yaml - - override_components: - ShadowPrice: - component: ["shadow_prices","Shadow price for a global constraint.",np.nan] - attributes: - name: ["string","n/a","n/a","Unique name","Input (required)"] - value: ["float","n/a",0.,"shadow value","Output"] - - Returns - ------- - pypsa.Network - """ - import pypsa - from pypsa.descriptors import Dict - - override_components = None - override_component_attrs = None - - if custom_components is not None: - override_components = pypsa.components.components.copy() - override_component_attrs = Dict( - {k: v.copy() for k, v in pypsa.components.component_attrs.items()} - ) - for k, v in custom_components.items(): - override_components.loc[k] = v["component"] - override_component_attrs[k] = pd.DataFrame( - columns=["type", "unit", "default", "description", "status"] - ) - for attr, val in v["attributes"].items(): - override_component_attrs[k].loc[attr] = val - - return pypsa.Network( - import_name=import_name, - override_components=override_components, - override_component_attrs=override_component_attrs, - ) - - -def load_network_for_plots(fn, tech_costs, config, combine_hydro_ps=True): - import pypsa - from add_electricity import load_costs, update_transmission_costs - - n = pypsa.Network(fn) - - n.loads["carrier"] = n.loads.bus.map(n.buses.carrier) + " load" - n.stores["carrier"] = n.stores.bus.map(n.buses.carrier) - - n.links["carrier"] = ( - n.links.bus0.map(n.buses.carrier) + "-" + n.links.bus1.map(n.buses.carrier) - ) - n.lines["carrier"] = "AC line" - n.transformers["carrier"] = "AC transformer" - - n.lines["s_nom"] = n.lines["s_nom_min"] - n.links["p_nom"] = n.links["p_nom_min"] - - if combine_hydro_ps: - n.storage_units.loc[ - n.storage_units.carrier.isin({"PHS", "hydro"}), "carrier" - ] = "hydro+PHS" - - # if the carrier was not set on the heat storage units - # bus_carrier = n.storage_units.bus.map(n.buses.carrier) - # n.storage_units.loc[bus_carrier == "heat","carrier"] = "water tanks" - - Nyears = n.snapshot_weightings.objective.sum() / 8760.0 - costs = load_costs(tech_costs, config["costs"], config["electricity"], Nyears) - update_transmission_costs(n, costs) - - return n - - def update_p_nom_max(n): # if extendable carriers (solar/onwind/...) have capacity >= 0, # e.g. existing assets from the OPSD project are included to the network, @@ -277,23 +191,6 @@ def progress_retrieve(url, file, disable=False): urllib.request.urlretrieve(url, file, reporthook=update_to) -def get_aggregation_strategies(aggregation_strategies): - # default aggregation strategies that cannot be defined in .yaml format must be specified within - # the function, otherwise (when defaults are passed in the function's definition) they get lost - # when custom values are specified in the config. - - import numpy as np - from pypsa.networkclustering import _make_consense - - bus_strategies = dict(country=_make_consense("Bus", "country")) - bus_strategies.update(aggregation_strategies.get("buses", {})) - - generator_strategies = {"build_year": lambda x: 0, "lifetime": lambda x: np.inf} - generator_strategies.update(aggregation_strategies.get("generators", {})) - - return bus_strategies, generator_strategies - - def mock_snakemake(rulename, configfiles=[], **wildcards): """ This function is expected to be executed from the 'scripts'-directory of ' @@ -384,33 +281,6 @@ def mock_snakemake(rulename, configfiles=[], **wildcards): return snakemake -def override_component_attrs(directory): - """Tell PyPSA that links can have multiple outputs by - overriding the component_attrs. This can be done for - as many buses as you need with format busi for i = 2,3,4,5,.... - See https://pypsa.org/doc/components.html#link-with-multiple-outputs-or-inputs - - Parameters - ---------- - directory : string - Folder where component attributes to override are stored - analogous to ``pypsa/component_attrs``, e.g. `links.csv`. - - Returns - ------- - Dictionary of overridden component attributes. - """ - attrs = Dict({k: v.copy() for k, v in component_attrs.items()}) - - for component, list_name in components.list_name.items(): - fn = f"{directory}/{list_name}.csv" - if os.path.isfile(fn): - overrides = pd.read_csv(fn, index_col=0, na_values="n/a") - attrs[component] = overrides.combine_first(attrs[component]) - - return attrs - - def generate_periodic_profiles(dt_index, nodes, weekly_profile, localize=None): """ Give a 24*7 long list of weekly hourly profiles, generate this for each diff --git a/scripts/add_brownfield.py b/scripts/add_brownfield.py index 069273c3..f0ff01d2 100644 --- a/scripts/add_brownfield.py +++ b/scripts/add_brownfield.py @@ -16,7 +16,7 @@ idx = pd.IndexSlice import numpy as np import pypsa -from _helpers import override_component_attrs, update_config_with_sector_opts +from _helpers import update_config_with_sector_opts from add_existing_baseyear import add_build_year_to_new_assets @@ -49,7 +49,7 @@ def add_brownfield(n, n_p, year): ) ] - threshold = snakemake.config["existing_capacities"]["threshold_capacity"] + threshold = snakemake.params.threshold_capacity if not chp_heat.empty: threshold_chp_heat = ( @@ -87,7 +87,7 @@ def add_brownfield(n, n_p, year): # deal with gas network pipe_carrier = ["gas pipeline"] - if snakemake.config["sector"]["H2_retrofit"]: + if snakemake.params.H2_retrofit: # drop capacities of previous year to avoid duplicating to_drop = n.links.carrier.isin(pipe_carrier) & (n.links.build_year != year) n.mremove("Link", n.links.loc[to_drop].index) @@ -98,7 +98,7 @@ def add_brownfield(n, n_p, year): & (n.links.build_year != year) ].index gas_pipes_i = n.links[n.links.carrier.isin(pipe_carrier)].index - CH4_per_H2 = 1 / snakemake.config["sector"]["H2_retrofit_capacity_per_CH4"] + CH4_per_H2 = 1 / snakemake.params.H2_retrofit_capacity_per_CH4 fr = "H2 pipeline retrofitted" to = "gas pipeline" # today's pipe capacity @@ -148,12 +148,11 @@ if __name__ == "__main__": year = int(snakemake.wildcards.planning_horizons) - overrides = override_component_attrs(snakemake.input.overrides) - n = pypsa.Network(snakemake.input.network, override_component_attrs=overrides) + n = pypsa.Network(snakemake.input.network) add_build_year_to_new_assets(n, year) - n_p = pypsa.Network(snakemake.input.network_p, override_component_attrs=overrides) + n_p = pypsa.Network(snakemake.input.network_p) add_brownfield(n, n_p, year) diff --git a/scripts/add_electricity.py b/scripts/add_electricity.py index 96d00c8d..93dae511 100755 --- a/scripts/add_electricity.py +++ b/scripts/add_electricity.py @@ -85,16 +85,18 @@ It further adds extendable ``generators`` with **zero** capacity for """ import logging +from itertools import product import geopandas as gpd import numpy as np import pandas as pd import powerplantmatching as pm import pypsa +import scipy.sparse as sparse import xarray as xr from _helpers import configure_logging, update_p_nom_max from powerplantmatching.export import map_country_bus -from vresutils import transfer as vtransfer +from shapely.prepared import prep idx = pd.IndexSlice @@ -121,21 +123,71 @@ def calculate_annuity(n, r): return 1 / n -def _add_missing_carriers_from_costs(n, costs, carriers): - missing_carriers = pd.Index(carriers).difference(n.carriers.index) - if missing_carriers.empty: - return +def add_missing_carriers(n, carriers): + """ + Function to add missing carriers to the network without raising errors. + """ + missing_carriers = set(carriers) - set(n.carriers.index) + if len(missing_carriers) > 0: + n.madd("Carrier", missing_carriers) - emissions_cols = ( - costs.columns.to_series().loc[lambda s: s.str.endswith("_emissions")].values + +def sanitize_carriers(n, config): + """ + Sanitize the carrier information in a PyPSA Network object. + + The function ensures that all unique carrier names are present in the network's + carriers attribute, and adds nice names and colors for each carrier according + to the provided configuration dictionary. + + Parameters + ---------- + n : pypsa.Network + A PyPSA Network object that represents an electrical power system. + config : dict + A dictionary containing configuration information, specifically the + "plotting" key with "nice_names" and "tech_colors" keys for carriers. + + Returns + ------- + None + The function modifies the 'n' PyPSA Network object in-place, updating the + carriers attribute with nice names and colors. + + Warnings + -------- + Raises a warning if any carrier's "tech_colors" are not defined in the config dictionary. + """ + + for c in n.iterate_components(): + if "carrier" in c.df: + add_missing_carriers(n, c.df.carrier) + + carrier_i = n.carriers.index + nice_names = ( + pd.Series(config["plotting"]["nice_names"]) + .reindex(carrier_i) + .fillna(carrier_i.to_series().str.title()) ) - suptechs = missing_carriers.str.split("-").str[0] - emissions = costs.loc[suptechs, emissions_cols].fillna(0.0) - emissions.index = missing_carriers - n.import_components_from_dataframe(emissions, "Carrier") + n.carriers["nice_name"] = n.carriers.nice_name.where( + n.carriers.nice_name != "", nice_names + ) + colors = pd.Series(config["plotting"]["tech_colors"]).reindex(carrier_i) + if colors.isna().any(): + missing_i = list(colors.index[colors.isna()]) + logger.warning(f"tech_colors for carriers {missing_i} not defined in config.") + n.carriers["color"] = n.carriers.color.where(n.carriers.color != "", colors) -def load_costs(tech_costs, config, elec_config, Nyears=1.0): +def add_co2_emissions(n, costs, carriers): + """ + Add CO2 emissions to the network's carriers attribute. + """ + suptechs = n.carriers.loc[carriers].index.str.split("-").str[0] + n.carriers.loc[carriers, "co2_emissions"] = costs.co2_emissions[suptechs].values + + +def load_costs(tech_costs, config, max_hours, Nyears=1.0): # set all asset costs and other parameters costs = pd.read_csv(tech_costs, index_col=[0, 1]).sort_index() @@ -178,7 +230,6 @@ def load_costs(tech_costs, config, elec_config, Nyears=1.0): dict(capital_cost=capital_cost, marginal_cost=0.0, co2_emissions=0.0) ) - max_hours = elec_config["max_hours"] costs.loc["battery"] = costs_for_storage( costs.loc["battery storage"], costs.loc["battery inverter"], @@ -216,6 +267,21 @@ def load_powerplants(ppl_fn): ) +def shapes_to_shapes(orig, dest): + """ + Adopted from vresutils.transfer.Shapes2Shapes() + """ + orig_prepped = list(map(prep, orig)) + transfer = sparse.lil_matrix((len(dest), len(orig)), dtype=float) + + for i, j in product(range(len(dest)), range(len(orig))): + if orig_prepped[j].intersects(dest[i]): + area = orig[j].intersection(dest[i]).area + transfer[i, j] = area / dest[i].area + + return transfer + + def attach_load(n, regions, load, nuts3_shapes, countries, scaling=1.0): substation_lv_i = n.buses.index[n.buses["substation_lv"]] regions = gpd.read_file(regions).set_index("name").reindex(substation_lv_i) @@ -232,9 +298,7 @@ def attach_load(n, regions, load, nuts3_shapes, countries, scaling=1.0): return pd.DataFrame({group.index[0]: l}) else: nuts3_cntry = nuts3.loc[nuts3.country == cntry] - transfer = vtransfer.Shapes2Shapes( - group, nuts3_cntry.geometry, normed=False - ).T.tocsr() + transfer = shapes_to_shapes(group, nuts3_cntry.geometry).T.tocsr() gdp_n = pd.Series( transfer.dot(nuts3_cntry["gdp"].fillna(1.0).values), index=group.index ) @@ -295,57 +359,56 @@ def update_transmission_costs(n, costs, length_factor=1.0): def attach_wind_and_solar( - n, costs, input_profiles, technologies, extendable_carriers, line_length_factor=1 + n, costs, input_profiles, carriers, extendable_carriers, line_length_factor=1 ): - # TODO: rename tech -> carrier, technologies -> carriers - _add_missing_carriers_from_costs(n, costs, technologies) + add_missing_carriers(n, carriers) - for tech in technologies: - if tech == "hydro": + for car in carriers: + if car == "hydro": continue - with xr.open_dataset(getattr(input_profiles, "profile_" + tech)) as ds: + with xr.open_dataset(getattr(input_profiles, "profile_" + car)) as ds: if ds.indexes["bus"].empty: continue - suptech = tech.split("-", 2)[0] - if suptech == "offwind": + supcar = car.split("-", 2)[0] + if supcar == "offwind": underwater_fraction = ds["underwater_fraction"].to_pandas() connection_cost = ( line_length_factor * ds["average_distance"].to_pandas() * ( underwater_fraction - * costs.at[tech + "-connection-submarine", "capital_cost"] + * costs.at[car + "-connection-submarine", "capital_cost"] + (1.0 - underwater_fraction) - * costs.at[tech + "-connection-underground", "capital_cost"] + * costs.at[car + "-connection-underground", "capital_cost"] ) ) capital_cost = ( costs.at["offwind", "capital_cost"] - + costs.at[tech + "-station", "capital_cost"] + + costs.at[car + "-station", "capital_cost"] + connection_cost ) logger.info( "Added connection cost of {:0.0f}-{:0.0f} Eur/MW/a to {}".format( - connection_cost.min(), connection_cost.max(), tech + connection_cost.min(), connection_cost.max(), car ) ) else: - capital_cost = costs.at[tech, "capital_cost"] + capital_cost = costs.at[car, "capital_cost"] n.madd( "Generator", ds.indexes["bus"], - " " + tech, + " " + car, bus=ds.indexes["bus"], - carrier=tech, - p_nom_extendable=tech in extendable_carriers["Generator"], + carrier=car, + p_nom_extendable=car in extendable_carriers["Generator"], p_nom_max=ds["p_nom_max"].to_pandas(), weight=ds["weight"].to_pandas(), - marginal_cost=costs.at[suptech, "marginal_cost"], + marginal_cost=costs.at[supcar, "marginal_cost"], capital_cost=capital_cost, - efficiency=costs.at[suptech, "efficiency"], + efficiency=costs.at[supcar, "efficiency"], p_max_pu=ds["profile"].transpose("time", "bus").to_pandas(), ) @@ -356,11 +419,19 @@ def attach_conventional_generators( ppl, conventional_carriers, extendable_carriers, - conventional_config, + conventional_params, conventional_inputs, ): - carriers = set(conventional_carriers) | set(extendable_carriers["Generator"]) - _add_missing_carriers_from_costs(n, costs, carriers) + carriers = list(set(conventional_carriers) | set(extendable_carriers["Generator"])) + add_missing_carriers(n, carriers) + add_co2_emissions(n, costs, carriers) + + # Replace carrier "natural gas" with the respective technology (OCGT or + # CCGT) to align with PyPSA names of "carriers" and avoid filtering "natural + # gas" powerplants in ppl.query("carrier in @carriers") + ppl.loc[ppl["carrier"] == "natural gas", "carrier"] = ppl.loc[ + ppl["carrier"] == "natural gas", "technology" + ] ppl = ( ppl.query("carrier in @carriers") @@ -393,17 +464,19 @@ def attach_conventional_generators( lifetime=(ppl.dateout - ppl.datein).fillna(np.inf), ) - for carrier in conventional_config: + for carrier in conventional_params: # Generators with technology affected idx = n.generators.query("carrier == @carrier").index - for attr in list(set(conventional_config[carrier]) & set(n.generators)): - values = conventional_config[carrier][attr] + for attr in list(set(conventional_params[carrier]) & set(n.generators)): + values = conventional_params[carrier][attr] if f"conventional_{carrier}_{attr}" in conventional_inputs: # Values affecting generators of technology k country-specific # First map generator buses to countries; then map countries to p_max_pu - values = pd.read_csv(values, index_col=0).iloc[:, 0] + values = pd.read_csv( + snakemake.input[f"conventional_{carrier}_{attr}"], index_col=0 + ).iloc[:, 0] bus_values = n.buses.country.map(values) n.generators[attr].update( n.generators.loc[idx].bus.map(bus_values).dropna() @@ -413,8 +486,9 @@ def attach_conventional_generators( n.generators.loc[idx, attr] = values -def attach_hydro(n, costs, ppl, profile_hydro, hydro_capacities, carriers, **config): - _add_missing_carriers_from_costs(n, costs, carriers) +def attach_hydro(n, costs, ppl, profile_hydro, hydro_capacities, carriers, **params): + add_missing_carriers(n, carriers) + add_co2_emissions(n, costs, carriers) ppl = ( ppl.query('carrier == "hydro"') @@ -468,9 +542,9 @@ def attach_hydro(n, costs, ppl, profile_hydro, hydro_capacities, carriers, **con ) if "PHS" in carriers and not phs.empty: - # fill missing max hours to config value and + # fill missing max hours to params value and # assume no natural inflow due to lack of data - max_hours = config.get("PHS_max_hours", 6) + max_hours = params.get("PHS_max_hours", 6) phs = phs.replace({"max_hours": {0: max_hours}}) n.madd( "StorageUnit", @@ -486,7 +560,7 @@ def attach_hydro(n, costs, ppl, profile_hydro, hydro_capacities, carriers, **con ) if "hydro" in carriers and not hydro.empty: - hydro_max_hours = config.get("hydro_max_hours") + hydro_max_hours = params.get("hydro_max_hours") assert hydro_max_hours is not None, "No path for hydro capacities given." @@ -546,7 +620,8 @@ def attach_extendable_generators(n, costs, ppl, carriers): logger.warning( "The function `attach_extendable_generators` is deprecated in v0.5.0." ) - _add_missing_carriers_from_costs(n, costs, carriers) + add_missing_carriers(n, carriers) + add_co2_emissions(n, costs, carriers) for tech in carriers: if tech.startswith("OCGT"): @@ -628,7 +703,7 @@ def attach_OPSD_renewables(n, tech_map): buses = n.buses.loc[gens.bus.unique()] gens_per_bus = gens.groupby("bus").p_nom.count() - caps = map_country_bus(df.query("Fueltype == @fueltype"), buses) + caps = map_country_bus(df.query("Fueltype == @fueltype and lat == lat"), buses) caps = caps.groupby(["bus"]).Capacity.sum() caps = caps / gens_per_bus.reindex(caps.index, fill_value=1) @@ -636,16 +711,7 @@ def attach_OPSD_renewables(n, tech_map): n.generators.p_nom_min.update(gens.bus.map(caps).dropna()) -def estimate_renewable_capacities(n, config): - year = config["electricity"]["estimate_renewable_capacities"]["year"] - tech_map = config["electricity"]["estimate_renewable_capacities"][ - "technology_mapping" - ] - countries = config["countries"] - expansion_limit = config["electricity"]["estimate_renewable_capacities"][ - "expansion_limit" - ] - +def estimate_renewable_capacities(n, year, tech_map, expansion_limit, countries): if not len(countries) or not len(tech_map): return @@ -686,21 +752,6 @@ def estimate_renewable_capacities(n, config): ) -def add_nice_carrier_names(n, config): - carrier_i = n.carriers.index - nice_names = ( - pd.Series(config["plotting"]["nice_names"]) - .reindex(carrier_i) - .fillna(carrier_i.to_series().str.title()) - ) - n.carriers["nice_name"] = nice_names - colors = pd.Series(config["plotting"]["tech_colors"]).reindex(carrier_i) - if colors.isna().any(): - missing_i = list(colors.index[colors.isna()]) - logger.warning(f"tech_colors for carriers {missing_i} not defined in config.") - n.carriers["color"] = colors - - def drop_leap_day(n): if not n.snapshots.is_leap_year.any(): return @@ -717,6 +768,8 @@ if __name__ == "__main__": snakemake = mock_snakemake("add_electricity", weather_year="") configure_logging(snakemake) + params = snakemake.params + n = pypsa.Network(snakemake.input.base_network) weather_year = snakemake.wildcards.weather_year @@ -732,43 +785,26 @@ if __name__ == "__main__": costs = load_costs( snakemake.input.tech_costs, - snakemake.config["costs"], - snakemake.config["electricity"], + params.costs, + params.electricity["max_hours"], Nyears, ) ppl = load_powerplants(snakemake.input.powerplants) - if "renewable_carriers" in snakemake.config["electricity"]: - renewable_carriers = set(snakemake.config["electricity"]["renewable_carriers"]) - else: - logger.warning( - "Missing key `renewable_carriers` under config entry `electricity`. " - "In future versions, this will raise an error. " - "Falling back to carriers listed under `renewable`." - ) - renewable_carriers = snakemake.config["renewable"] - - extendable_carriers = snakemake.config["electricity"]["extendable_carriers"] - if not (set(renewable_carriers) & set(extendable_carriers["Generator"])): - logger.warning( - "No renewables found in config entry `extendable_carriers`. " - "In future versions, these have to be explicitly listed. " - "Falling back to all renewables." - ) - - conventional_carriers = snakemake.config["electricity"]["conventional_carriers"] - attach_load( n, snakemake.input.regions, snakemake.input.load, snakemake.input.nuts3_shapes, - snakemake.config["countries"], - snakemake.config["load"]["scaling_factor"], + params.countries, + params.scaling_factor, ) - update_transmission_costs(n, costs, snakemake.config["lines"]["length_factor"]) + update_transmission_costs(n, costs, params.length_factor) + renewable_carriers = set(params.electricity["renewable_carriers"]) + extendable_carriers = params.electricity["extendable_carriers"] + conventional_carriers = params.electricity["conventional_carriers"] conventional_inputs = { k: v for k, v in snakemake.input.items() if k.startswith("conventional_") } @@ -778,7 +814,7 @@ if __name__ == "__main__": ppl, conventional_carriers, extendable_carriers, - snakemake.config.get("conventional", {}), + params.conventional, conventional_inputs, ) @@ -788,71 +824,36 @@ if __name__ == "__main__": snakemake.input, renewable_carriers, extendable_carriers, - snakemake.config["lines"]["length_factor"], + params.length_factor, ) if "hydro" in renewable_carriers: - conf = snakemake.config["renewable"]["hydro"] + para = params.renewable["hydro"] attach_hydro( n, costs, ppl, snakemake.input.profile_hydro, snakemake.input.hydro_capacities, - conf.pop("carriers", []), - **conf, + para.pop("carriers", []), + **para, ) - if "estimate_renewable_capacities" not in snakemake.config["electricity"]: - logger.warning( - "Missing key `estimate_renewable_capacities` under config entry `electricity`. " - "In future versions, this will raise an error. " - "Falling back to whether ``estimate_renewable_capacities_from_capacity_stats`` is in the config." - ) - if ( - "estimate_renewable_capacities_from_capacity_stats" - in snakemake.config["electricity"] - ): - estimate_renewable_caps = { - "enable": True, - **snakemake.config["electricity"][ - "estimate_renewable_capacities_from_capacity_stats" - ], - } - else: - estimate_renewable_caps = {"enable": False} - else: - estimate_renewable_caps = snakemake.config["electricity"][ - "estimate_renewable_capacities" - ] - if "enable" not in estimate_renewable_caps: - logger.warning( - "Missing key `enable` under config entry `estimate_renewable_capacities`. " - "In future versions, this will raise an error. Falling back to False." - ) - estimate_renewable_caps = {"enable": False} - if "from_opsd" not in estimate_renewable_caps: - logger.warning( - "Missing key `from_opsd` under config entry `estimate_renewable_capacities`. " - "In future versions, this will raise an error. " - "Falling back to whether `renewable_capacities_from_opsd` is non-empty." - ) - from_opsd = bool( - snakemake.config["electricity"].get("renewable_capacities_from_opsd", False) - ) - estimate_renewable_caps["from_opsd"] = from_opsd - + estimate_renewable_caps = params.electricity["estimate_renewable_capacities"] if estimate_renewable_caps["enable"]: + tech_map = estimate_renewable_caps["technology_mapping"] + expansion_limit = estimate_renewable_caps["expansion_limit"] + year = estimate_renewable_caps["year"] + if estimate_renewable_caps["from_opsd"]: - tech_map = snakemake.config["electricity"]["estimate_renewable_capacities"][ - "technology_mapping" - ] attach_OPSD_renewables(n, tech_map) - estimate_renewable_capacities(n, snakemake.config) + estimate_renewable_capacities( + n, year, tech_map, expansion_limit, params.countries + ) update_p_nom_max(n) - add_nice_carrier_names(n, snakemake.config) + sanitize_carriers(n, snakemake.config) if snakemake.config["enable"].get("drop_leap_days", True): drop_leap_day(n) diff --git a/scripts/add_existing_baseyear.py b/scripts/add_existing_baseyear.py index b7e8eb2b..a510a17f 100644 --- a/scripts/add_existing_baseyear.py +++ b/scripts/add_existing_baseyear.py @@ -21,7 +21,8 @@ import country_converter as coco import numpy as np import pypsa import xarray as xr -from _helpers import override_component_attrs, update_config_with_sector_opts +from _helpers import update_config_with_sector_opts +from add_electricity import sanitize_carriers from prepare_sector_network import cluster_heat_buses, define_spatial, prepare_costs cc = coco.CountryConverter() @@ -128,10 +129,14 @@ def add_power_capacities_installed_before_baseyear(n, grouping_years, costs, bas "Oil": "oil", "OCGT": "OCGT", "CCGT": "CCGT", - "Natural Gas": "gas", "Bioenergy": "urban central solid biomass CHP", } + # Replace Fueltype "Natural Gas" with the respective technology (OCGT or CCGT) + df_agg.loc[df_agg["Fueltype"] == "Natural Gas", "Fueltype"] = df_agg.loc[ + df_agg["Fueltype"] == "Natural Gas", "Technology" + ] + fueltype_to_drop = [ "Hydro", "Wind", @@ -157,7 +162,7 @@ def add_power_capacities_installed_before_baseyear(n, grouping_years, costs, bas # Fill missing DateOut dateout = ( df_agg.loc[biomass_i, "DateIn"] - + snakemake.config["costs"]["fill_values"]["lifetime"] + + snakemake.params.costs["fill_values"]["lifetime"] ) df_agg.loc[biomass_i, "DateOut"] = df_agg.loc[biomass_i, "DateOut"].fillna(dateout) @@ -218,7 +223,7 @@ def add_power_capacities_installed_before_baseyear(n, grouping_years, costs, bas capacity = df.loc[grouping_year, generator] capacity = capacity[~capacity.isna()] capacity = capacity[ - capacity > snakemake.config["existing_capacities"]["threshold_capacity"] + capacity > snakemake.params.existing_capacities["threshold_capacity"] ] suffix = "-ac" if generator == "offwind" else "" name_suffix = f" {generator}{suffix}-{grouping_year}" @@ -582,7 +587,7 @@ def add_heating_capacities_installed_before_baseyear( ) # delete links with capacities below threshold - threshold = snakemake.config["existing_capacities"]["threshold_capacity"] + threshold = snakemake.params.existing_capacities["threshold_capacity"] n.mremove( "Link", [ @@ -601,25 +606,26 @@ if __name__ == "__main__": snakemake = mock_snakemake( "add_existing_baseyear", weather_year="", + configfiles="config/test/config.myopic.yaml", simpl="", - clusters="45", - ll="v1.0", + clusters="5", + ll="v1.5", opts="", - sector_opts="8760H-T-H-B-I-A-solar+p3-dist1", - planning_horizons=2020, + sector_opts="24H-T-H-B-I-A-solar+p3-dist1", + planning_horizons=2030, ) logging.basicConfig(level=snakemake.config["logging"]["level"]) update_config_with_sector_opts(snakemake.config, snakemake.wildcards.sector_opts) - options = snakemake.config["sector"] + options = snakemake.params.sector opts = snakemake.wildcards.sector_opts.split("-") - baseyear = snakemake.config["scenario"]["planning_horizons"][0] + baseyear = snakemake.params.baseyear + + n = pypsa.Network(snakemake.input.network) - overrides = override_component_attrs(snakemake.input.overrides) - n = pypsa.Network(snakemake.input.network, override_component_attrs=overrides) # define spatial resolution of carriers spatial = define_spatial(n.buses[n.buses.carrier == "AC"].index, options) add_build_year_to_new_assets(n, baseyear) @@ -627,14 +633,12 @@ if __name__ == "__main__": Nyears = n.snapshot_weightings.generators.sum() / 8760.0 costs = prepare_costs( snakemake.input.costs, - snakemake.config["costs"], + snakemake.params.costs, Nyears, ) - grouping_years_power = snakemake.config["existing_capacities"][ - "grouping_years_power" - ] - grouping_years_heat = snakemake.config["existing_capacities"]["grouping_years_heat"] + grouping_years_power = snakemake.params.existing_capacities["grouping_years_power"] + grouping_years_heat = snakemake.params.existing_capacities["grouping_years_heat"] add_power_capacities_installed_before_baseyear( n, grouping_years_power, costs, baseyear ) @@ -651,7 +655,7 @@ if __name__ == "__main__": .to_pandas() .reindex(index=n.snapshots) ) - default_lifetime = snakemake.config["costs"]["fill_values"]["lifetime"] + default_lifetime = snakemake.params.costs["fill_values"]["lifetime"] add_heating_capacities_installed_before_baseyear( n, baseyear, @@ -668,4 +672,6 @@ if __name__ == "__main__": n.meta = dict(snakemake.config, **dict(wildcards=dict(snakemake.wildcards))) + sanitize_carriers(n, snakemake.config) + n.export_to_netcdf(snakemake.output[0]) diff --git a/scripts/add_extra_components.py b/scripts/add_extra_components.py index 91abbad6..e69a2d26 100644 --- a/scripts/add_extra_components.py +++ b/scripts/add_extra_components.py @@ -56,22 +56,17 @@ import numpy as np import pandas as pd import pypsa from _helpers import configure_logging -from add_electricity import ( - _add_missing_carriers_from_costs, - add_nice_carrier_names, - load_costs, -) +from add_electricity import load_costs, sanitize_carriers idx = pd.IndexSlice logger = logging.getLogger(__name__) -def attach_storageunits(n, costs, elec_opts): - carriers = elec_opts["extendable_carriers"]["StorageUnit"] - max_hours = elec_opts["max_hours"] +def attach_storageunits(n, costs, extendable_carriers, max_hours): + carriers = extendable_carriers["StorageUnit"] - _add_missing_carriers_from_costs(n, costs, carriers) + n.madd("Carrier", carriers) buses_i = n.buses.index @@ -99,10 +94,10 @@ def attach_storageunits(n, costs, elec_opts): ) -def attach_stores(n, costs, elec_opts): - carriers = elec_opts["extendable_carriers"]["Store"] +def attach_stores(n, costs, extendable_carriers): + carriers = extendable_carriers["Store"] - _add_missing_carriers_from_costs(n, costs, carriers) + n.madd("Carrier", carriers) buses_i = n.buses.index bus_sub_dict = {k: n.buses[k].values for k in ["x", "y", "country"]} @@ -162,6 +157,8 @@ def attach_stores(n, costs, elec_opts): marginal_cost=costs.at["battery", "marginal_cost"], ) + n.madd("Carrier", ["battery charger", "battery discharger"]) + n.madd( "Link", b_buses_i + " charger", @@ -187,11 +184,10 @@ def attach_stores(n, costs, elec_opts): ) -def attach_hydrogen_pipelines(n, costs, elec_opts): - ext_carriers = elec_opts["extendable_carriers"] - as_stores = ext_carriers.get("Store", []) +def attach_hydrogen_pipelines(n, costs, extendable_carriers): + as_stores = extendable_carriers.get("Store", []) - if "H2 pipeline" not in ext_carriers.get("Link", []): + if "H2 pipeline" not in extendable_carriers.get("Link", []): return assert "H2" in as_stores, ( @@ -213,6 +209,8 @@ def attach_hydrogen_pipelines(n, costs, elec_opts): h2_links.index = h2_links.apply(lambda c: f"H2 pipeline {c.bus0}-{c.bus1}", axis=1) # add pipelines + n.add("Carrier", "H2 pipeline") + n.madd( "Link", h2_links.index, @@ -237,18 +235,19 @@ if __name__ == "__main__": configure_logging(snakemake) n = pypsa.Network(snakemake.input.network) - elec_config = snakemake.config["electricity"] + extendable_carriers = snakemake.params.extendable_carriers + max_hours = snakemake.params.max_hours Nyears = n.snapshot_weightings.objective.sum() / 8760.0 costs = load_costs( - snakemake.input.tech_costs, snakemake.config["costs"], elec_config, Nyears + snakemake.input.tech_costs, snakemake.params.costs, max_hours, Nyears ) - attach_storageunits(n, costs, elec_config) - attach_stores(n, costs, elec_config) - attach_hydrogen_pipelines(n, costs, elec_config) + attach_storageunits(n, costs, extendable_carriers, max_hours) + attach_stores(n, costs, extendable_carriers) + attach_hydrogen_pipelines(n, costs, extendable_carriers) - add_nice_carrier_names(n, snakemake.config) + sanitize_carriers(n, snakemake.config) n.meta = dict(snakemake.config, **dict(wildcards=dict(snakemake.wildcards))) n.export_to_netcdf(snakemake.output[0]) diff --git a/scripts/base_network.py b/scripts/base_network.py index 3130d272..55b8dfad 100644 --- a/scripts/base_network.py +++ b/scripts/base_network.py @@ -712,6 +712,7 @@ def base_network( n.name = "PyPSA-Eur" n.set_snapshots(pd.date_range(freq="h", **config["snapshots"])) + n.madd("Carrier", ["AC", "DC"]) n.import_components_from_dataframe(buses, "Bus") n.import_components_from_dataframe(lines, "Line") diff --git a/scripts/build_ammonia_production.py b/scripts/build_ammonia_production.py index d78d627e..1bcdf9ae 100644 --- a/scripts/build_ammonia_production.py +++ b/scripts/build_ammonia_production.py @@ -30,7 +30,7 @@ if __name__ == "__main__": ammonia.index = cc.convert(ammonia.index, to="iso2") years = [str(i) for i in range(2013, 2018)] - countries = ammonia.index.intersection(snakemake.config["countries"]) + countries = ammonia.index.intersection(snakemake.params.countries) ammonia = ammonia.loc[countries, years].astype(float) # convert from ktonN to ktonNH3 diff --git a/scripts/build_biomass_potentials.py b/scripts/build_biomass_potentials.py index f87263b5..2487a8fe 100644 --- a/scripts/build_biomass_potentials.py +++ b/scripts/build_biomass_potentials.py @@ -212,9 +212,9 @@ if __name__ == "__main__": "build_biomass_potentials", weather_year="", simpl="", clusters="5" ) - config = snakemake.config["biomass"] - year = config["year"] - scenario = config["scenario"] + params = snakemake.params.biomass + year = params["year"] + scenario = params["scenario"] enspreso = enspreso_biomass_potentials(year, scenario) @@ -230,7 +230,7 @@ if __name__ == "__main__": df.to_csv(snakemake.output.biomass_potentials_all) - grouper = {v: k for k, vv in config["classes"].items() for v in vv} + grouper = {v: k for k, vv in params["classes"].items() for v in vv} df = df.groupby(grouper, axis=1).sum() df *= 1e6 # TWh/a to MWh/a diff --git a/scripts/build_bus_regions.py b/scripts/build_bus_regions.py index 6dc3b5a4..a6500bb0 100644 --- a/scripts/build_bus_regions.py +++ b/scripts/build_bus_regions.py @@ -116,7 +116,7 @@ if __name__ == "__main__": snakemake = mock_snakemake("build_bus_regions") configure_logging(snakemake) - countries = snakemake.config["countries"] + countries = snakemake.params.countries n = pypsa.Network(snakemake.input.base_network) diff --git a/scripts/build_cop_profiles.py b/scripts/build_cop_profiles.py index 033cc02a..a0dd8cde 100644 --- a/scripts/build_cop_profiles.py +++ b/scripts/build_cop_profiles.py @@ -40,7 +40,7 @@ if __name__ == "__main__": for source in ["air", "soil"]: source_T = xr.open_dataarray(snakemake.input[f"temp_{source}_{area}"]) - delta_T = snakemake.config["sector"]["heat_pump_sink_T"] - source_T + delta_T = snakemake.params.heat_pump_sink_T - source_T cop = coefficient_of_performance(delta_T, source) diff --git a/scripts/build_cutout.py b/scripts/build_cutout.py index 60da4f55..bf745056 100644 --- a/scripts/build_cutout.py +++ b/scripts/build_cutout.py @@ -106,14 +106,14 @@ if __name__ == "__main__": snakemake = mock_snakemake("build_cutout", cutout="europe-2013-era5") configure_logging(snakemake) - cutout_params = snakemake.config["atlite"]["cutouts"][snakemake.wildcards.cutout] + cutout_params = snakemake.params.cutouts[snakemake.wildcards.cutout] if hasattr(snakemake.wildcards, "weather_year"): time = snakemake.wildcards.weather_year cutout_params["time"] = [time, time] if "time" not in cutout_params: - snapshots = pd.date_range(freq="h", **snakemake.config["snapshots"]) + snapshots = pd.date_range(freq="h", **snakemake.params.snapshots) cutout_params["time"] = [snapshots[0], snapshots[-1]] cutout_params["time"] = slice(*cutout_params["time"]) diff --git a/scripts/build_electricity_demand.py b/scripts/build_electricity_demand.py index ee455287..2d4f4895 100755 --- a/scripts/build_electricity_demand.py +++ b/scripts/build_electricity_demand.py @@ -285,7 +285,7 @@ if __name__ == "__main__": start=weather_year, end=str(int(weather_year) + 1), inclusive="left" ) else: - snapshots = snakemake.config["snapshots"] + snapshots = snakemake.params.snapshots snapshots = pd.date_range(freq="h", **snapshots) fixed_year = snakemake.config["load"].get("fixed_year", False) @@ -295,16 +295,17 @@ if __name__ == "__main__": else slice(snapshots[0], snapshots[-1]) ) - powerstatistics = snakemake.config["load"]["power_statistics"] - interpolate_limit = snakemake.config["load"]["interpolate_limit"] - countries = snakemake.config["countries"] - snapshots = pd.date_range(freq="h", **snakemake.config["snapshots"]) + powerstatistics = snakemake.params.load["power_statistics"] + interpolate_limit = snakemake.params.load["interpolate_limit"] + countries = snakemake.params.countries + snapshots = pd.date_range(freq="h", **snakemake.params.snapshots) + years = slice(snapshots[0], snapshots[-1]) - time_shift = snakemake.config["load"]["time_shift_for_large_gaps"] + time_shift = snakemake.params.load["time_shift_for_large_gaps"] load = load_timeseries(snakemake.input[0], years, countries, powerstatistics) - if snakemake.config["load"]["manual_adjustments"]: + if snakemake.params.load["manual_adjustments"]: load = manual_adjustment(load, snakemake.input[0], powerstatistics) logger.info(f"Linearly interpolate gaps of size {interpolate_limit} and less.") diff --git a/scripts/build_energy_totals.py b/scripts/build_energy_totals.py index 0eb5665c..50d52134 100644 --- a/scripts/build_energy_totals.py +++ b/scripts/build_energy_totals.py @@ -736,23 +736,26 @@ if __name__ == "__main__": logging.basicConfig(level=snakemake.config["logging"]["level"]) - config = snakemake.config["energy"] - data_year = int(config["energy_totals_year"]) + params = snakemake.params.energy nuts3 = gpd.read_file(snakemake.input.nuts3_shapes).set_index("index") population = nuts3["pop"].groupby(nuts3.country).sum() - countries = snakemake.config["countries"] + countries = snakemake.params.countries idees_countries = pd.Index(countries).intersection(eu28) - eurostat = build_eurostat(countries.difference(['CH'])) - swiss = build_swiss() - idees = build_idees(idees_countries) + data_year = params["energy_totals_year"] + report_year = snakemake.params.energy["eurostat_report_year"] + input_eurostat = snakemake.input.eurostat + eurostat = build_eurostat(input_eurostat, countries, report_year, data_year) + swiss = build_swiss(data_year) + idees = build_idees(idees_countries, data_year) energy = build_energy_totals(countries, eurostat, swiss, idees) energy.to_csv(snakemake.output.energy_name) - base_year_emissions = config["base_emissions_year"] + base_year_emissions = params["base_emissions_year"] + emissions_scope = snakemake.params.energy["emissions"] eea_co2 = build_eea_co2(snakemake.input.co2, base_year_emissions, emissions_scope) eurostat_co2 = build_eurostat_co2(countries, eurostat, base_year_emissions) diff --git a/scripts/build_heat_demand.py b/scripts/build_heat_demand.py index a52ad3d1..37f05147 100644 --- a/scripts/build_heat_demand.py +++ b/scripts/build_heat_demand.py @@ -35,7 +35,7 @@ if __name__ == "__main__": snapshots = dict(start=year, end=str(int(year) + 1), inclusive="left") cutout_name = cutout_name.format(weather_year=year) else: - snapshots = snakemake.config["snapshots"] + snapshots = snakemake.params.snapshots drop_leap_day = snakemake.config["atlite"].get("drop_leap_day", False) time = pd.date_range(freq="h", **snapshots) diff --git a/scripts/build_hydro_profile.py b/scripts/build_hydro_profile.py index 708c0c8d..42e9b1e4 100644 --- a/scripts/build_hydro_profile.py +++ b/scripts/build_hydro_profile.py @@ -169,10 +169,10 @@ if __name__ == "__main__": snakemake = mock_snakemake("build_hydro_profile", weather_year="") configure_logging(snakemake) - config_hydro = snakemake.config["renewable"]["hydro"] + params_hydro = snakemake.params.hydro cutout = atlite.Cutout(snakemake.input.cutout) - countries = snakemake.config["countries"] + countries = snakemake.params.countries country_shapes = ( gpd.read_file(snakemake.input.country_shapes) .set_index("name")["geometry"] @@ -207,7 +207,7 @@ if __name__ == "__main__": normalize_using_yearly=eia_stats, ) - if "clip_min_inflow" in config_hydro: - inflow = inflow.where(inflow > config_hydro["clip_min_inflow"], 0) + if "clip_min_inflow" in params_hydro: + inflow = inflow.where(inflow > params_hydro["clip_min_inflow"], 0) inflow.to_netcdf(snakemake.output.profile) diff --git a/scripts/build_industrial_distribution_key.py b/scripts/build_industrial_distribution_key.py index 73a5d1e5..b190cd32 100644 --- a/scripts/build_industrial_distribution_key.py +++ b/scripts/build_industrial_distribution_key.py @@ -73,7 +73,7 @@ def prepare_hotmaps_database(regions): df[["srid", "coordinates"]] = df.geom.str.split(";", expand=True) - if snakemake.config["industry"].get("hotmaps_locate_missing", False): + if snakemake.params.hotmaps_locate_missing: df = locate_missing_industrial_sites(df) # remove those sites without valid locations @@ -144,7 +144,7 @@ if __name__ == "__main__": logging.basicConfig(level=snakemake.config["logging"]["level"]) - countries = snakemake.config["countries"] + countries = snakemake.params.countries regions = gpd.read_file(snakemake.input.regions_onshore).set_index("name") diff --git a/scripts/build_industrial_energy_demand_per_country_today.py b/scripts/build_industrial_energy_demand_per_country_today.py index 703997b1..9ca0d003 100644 --- a/scripts/build_industrial_energy_demand_per_country_today.py +++ b/scripts/build_industrial_energy_demand_per_country_today.py @@ -101,8 +101,8 @@ def add_ammonia_energy_demand(demand): def get_ammonia_by_fuel(x): fuels = { - "gas": config["MWh_CH4_per_tNH3_SMR"], - "electricity": config["MWh_elec_per_tNH3_SMR"], + "gas": params["MWh_CH4_per_tNH3_SMR"], + "electricity": params["MWh_elec_per_tNH3_SMR"], } return pd.Series({k: x * v for k, v in fuels.items()}) @@ -112,7 +112,7 @@ def add_ammonia_energy_demand(demand): index=demand.index, fill_value=0.0 ) - ammonia = pd.DataFrame({"ammonia": ammonia * config["MWh_NH3_per_tNH3"]}).T + ammonia = pd.DataFrame({"ammonia": ammonia * params["MWh_NH3_per_tNH3"]}).T demand["Ammonia"] = ammonia.unstack().reindex(index=demand.index, fill_value=0.0) @@ -178,9 +178,9 @@ if __name__ == "__main__": snakemake = mock_snakemake("build_industrial_energy_demand_per_country_today") - config = snakemake.config["industry"] - year = config.get("reference_year", 2015) - countries = pd.Index(snakemake.config["countries"]) + params = snakemake.params.industry + year = params.get("reference_year", 2015) + countries = pd.Index(snakemake.params.countries) demand = industrial_energy_demand(countries.intersection(eu28), year) diff --git a/scripts/build_industrial_production_per_country.py b/scripts/build_industrial_production_per_country.py index 437806b3..74cb1949 100644 --- a/scripts/build_industrial_production_per_country.py +++ b/scripts/build_industrial_production_per_country.py @@ -264,9 +264,9 @@ def separate_basic_chemicals(demand, year): # assume HVC, methanol, chlorine production proportional to non-ammonia basic chemicals distribution_key = demand["Basic chemicals"] / demand["Basic chemicals"].sum() - demand["HVC"] = config["HVC_production_today"] * 1e3 * distribution_key - demand["Chlorine"] = config["chlorine_production_today"] * 1e3 * distribution_key - demand["Methanol"] = config["methanol_production_today"] * 1e3 * distribution_key + demand["HVC"] = params["HVC_production_today"] * 1e3 * distribution_key + demand["Chlorine"] = params["chlorine_production_today"] * 1e3 * distribution_key + demand["Methanol"] = params["methanol_production_today"] * 1e3 * distribution_key demand.drop(columns=["Basic chemicals"], inplace=True) @@ -279,11 +279,11 @@ if __name__ == "__main__": logging.basicConfig(level=snakemake.config["logging"]["level"]) - countries = snakemake.config["countries"] + countries = snakemake.params.countries - year = snakemake.config["industry"]["reference_year"] + year = snakemake.params.industry["reference_year"] - config = snakemake.config["industry"] + params = snakemake.params.industry jrc_dir = snakemake.input.jrc eurostat_dir = snakemake.input.eurostat diff --git a/scripts/build_industrial_production_per_country_tomorrow.py b/scripts/build_industrial_production_per_country_tomorrow.py index 6c445608..ffed5195 100644 --- a/scripts/build_industrial_production_per_country_tomorrow.py +++ b/scripts/build_industrial_production_per_country_tomorrow.py @@ -15,7 +15,7 @@ if __name__ == "__main__": snakemake = mock_snakemake("build_industrial_production_per_country_tomorrow") - config = snakemake.config["industry"] + params = snakemake.params.industry investment_year = int(snakemake.wildcards.planning_horizons) @@ -25,8 +25,8 @@ if __name__ == "__main__": keys = ["Integrated steelworks", "Electric arc"] total_steel = production[keys].sum(axis=1) - st_primary_fraction = get(config["St_primary_fraction"], investment_year) - dri_fraction = get(config["DRI_fraction"], investment_year) + st_primary_fraction = get(params["St_primary_fraction"], investment_year) + dri_fraction = get(params["DRI_fraction"], investment_year) int_steel = production["Integrated steelworks"].sum() fraction_persistent_primary = st_primary_fraction * total_steel.sum() / int_steel @@ -51,7 +51,7 @@ if __name__ == "__main__": key_pri = "Aluminium - primary production" key_sec = "Aluminium - secondary production" - al_primary_fraction = get(config["Al_primary_fraction"], investment_year) + al_primary_fraction = get(params["Al_primary_fraction"], investment_year) fraction_persistent_primary = ( al_primary_fraction * total_aluminium.sum() / production[key_pri].sum() ) @@ -60,15 +60,15 @@ if __name__ == "__main__": production[key_sec] = total_aluminium - production[key_pri] production["HVC (mechanical recycling)"] = ( - get(config["HVC_mechanical_recycling_fraction"], investment_year) + get(params["HVC_mechanical_recycling_fraction"], investment_year) * production["HVC"] ) production["HVC (chemical recycling)"] = ( - get(config["HVC_chemical_recycling_fraction"], investment_year) + get(params["HVC_chemical_recycling_fraction"], investment_year) * production["HVC"] ) - production["HVC"] *= get(config["HVC_primary_fraction"], investment_year) + production["HVC"] *= get(params["HVC_primary_fraction"], investment_year) fn = snakemake.output.industrial_production_per_country_tomorrow production.to_csv(fn, float_format="%.2f") diff --git a/scripts/build_industry_sector_ratios.py b/scripts/build_industry_sector_ratios.py index 54f2cfdc..45705002 100644 --- a/scripts/build_industry_sector_ratios.py +++ b/scripts/build_industry_sector_ratios.py @@ -185,10 +185,10 @@ def iron_and_steel(): df[sector] = df["Electric arc"] # add H2 consumption for DRI at 1.7 MWh H2 /ton steel - df.at["hydrogen", sector] = config["H2_DRI"] + df.at["hydrogen", sector] = params["H2_DRI"] # add electricity consumption in DRI shaft (0.322 MWh/tSl) - df.at["elec", sector] += config["elec_DRI"] + df.at["elec", sector] += params["elec_DRI"] ## Integrated steelworks # could be used in combination with CCS) @@ -383,19 +383,19 @@ def chemicals_industry(): assert s_emi.index[0] == sector # convert from MtHVC/a to ktHVC/a - s_out = config["HVC_production_today"] * 1e3 + s_out = params["HVC_production_today"] * 1e3 # tCO2/t material df.loc["process emission", sector] += ( s_emi["Process emissions"] - - config["petrochemical_process_emissions"] * 1e3 - - config["NH3_process_emissions"] * 1e3 + - params["petrochemical_process_emissions"] * 1e3 + - params["NH3_process_emissions"] * 1e3 ) / s_out # emissions originating from feedstock, could be non-fossil origin # tCO2/t material df.loc["process emission from feedstock", sector] += ( - config["petrochemical_process_emissions"] * 1e3 + params["petrochemical_process_emissions"] * 1e3 ) / s_out # convert from ktoe/a to GWh/a @@ -405,18 +405,18 @@ def chemicals_industry(): # subtract ammonia energy demand (in ktNH3/a) ammonia = pd.read_csv(snakemake.input.ammonia_production, index_col=0) ammonia_total = ammonia.loc[ammonia.index.intersection(eu28), str(year)].sum() - df.loc["methane", sector] -= ammonia_total * config["MWh_CH4_per_tNH3_SMR"] - df.loc["elec", sector] -= ammonia_total * config["MWh_elec_per_tNH3_SMR"] + df.loc["methane", sector] -= ammonia_total * params["MWh_CH4_per_tNH3_SMR"] + df.loc["elec", sector] -= ammonia_total * params["MWh_elec_per_tNH3_SMR"] # subtract chlorine demand - chlorine_total = config["chlorine_production_today"] - df.loc["hydrogen", sector] -= chlorine_total * config["MWh_H2_per_tCl"] - df.loc["elec", sector] -= chlorine_total * config["MWh_elec_per_tCl"] + chlorine_total = params["chlorine_production_today"] + df.loc["hydrogen", sector] -= chlorine_total * params["MWh_H2_per_tCl"] + df.loc["elec", sector] -= chlorine_total * params["MWh_elec_per_tCl"] # subtract methanol demand - methanol_total = config["methanol_production_today"] - df.loc["methane", sector] -= methanol_total * config["MWh_CH4_per_tMeOH"] - df.loc["elec", sector] -= methanol_total * config["MWh_elec_per_tMeOH"] + methanol_total = params["methanol_production_today"] + df.loc["methane", sector] -= methanol_total * params["MWh_CH4_per_tMeOH"] + df.loc["elec", sector] -= methanol_total * params["MWh_elec_per_tMeOH"] # MWh/t material df.loc[sources, sector] = df.loc[sources, sector] / s_out @@ -427,37 +427,37 @@ def chemicals_industry(): sector = "HVC (mechanical recycling)" df[sector] = 0.0 - df.loc["elec", sector] = config["MWh_elec_per_tHVC_mechanical_recycling"] + df.loc["elec", sector] = params["MWh_elec_per_tHVC_mechanical_recycling"] # HVC chemical recycling sector = "HVC (chemical recycling)" df[sector] = 0.0 - df.loc["elec", sector] = config["MWh_elec_per_tHVC_chemical_recycling"] + df.loc["elec", sector] = params["MWh_elec_per_tHVC_chemical_recycling"] # Ammonia sector = "Ammonia" df[sector] = 0.0 - if snakemake.config["sector"].get("ammonia", False): - df.loc["ammonia", sector] = config["MWh_NH3_per_tNH3"] + if snakemake.params.ammonia: + df.loc["ammonia", sector] = params["MWh_NH3_per_tNH3"] else: - df.loc["hydrogen", sector] = config["MWh_H2_per_tNH3_electrolysis"] - df.loc["elec", sector] = config["MWh_elec_per_tNH3_electrolysis"] + df.loc["hydrogen", sector] = params["MWh_H2_per_tNH3_electrolysis"] + df.loc["elec", sector] = params["MWh_elec_per_tNH3_electrolysis"] # Chlorine sector = "Chlorine" df[sector] = 0.0 - df.loc["hydrogen", sector] = config["MWh_H2_per_tCl"] - df.loc["elec", sector] = config["MWh_elec_per_tCl"] + df.loc["hydrogen", sector] = params["MWh_H2_per_tCl"] + df.loc["elec", sector] = params["MWh_elec_per_tCl"] # Methanol sector = "Methanol" df[sector] = 0.0 - df.loc["methane", sector] = config["MWh_CH4_per_tMeOH"] - df.loc["elec", sector] = config["MWh_elec_per_tMeOH"] + df.loc["methane", sector] = params["MWh_CH4_per_tMeOH"] + df.loc["elec", sector] = params["MWh_elec_per_tMeOH"] # Other chemicals @@ -1465,10 +1465,10 @@ if __name__ == "__main__": snakemake = mock_snakemake("build_industry_sector_ratios") - # TODO make config option + # TODO make params option year = 2015 - config = snakemake.config["industry"] + params = snakemake.params.industry df = pd.concat( [ diff --git a/scripts/build_powerplants.py b/scripts/build_powerplants.py index 9ca67a53..cbe94505 100755 --- a/scripts/build_powerplants.py +++ b/scripts/build_powerplants.py @@ -98,13 +98,15 @@ def add_custom_powerplants(ppl, custom_powerplants, custom_ppl_query=False): def replace_natural_gas_technology(df): - mapping = {"Steam Turbine": "OCGT", "Combustion Engine": "OCGT"} - tech = df.Technology.replace(mapping).fillna("OCGT") - return df.Technology.where(df.Fueltype != "Natural Gas", tech) + mapping = {"Steam Turbine": "CCGT", "Combustion Engine": "OCGT"} + tech = df.Technology.replace(mapping).fillna("CCGT") + return df.Technology.mask(df.Fueltype == "Natural Gas", tech) def replace_natural_gas_fueltype(df): - return df.Fueltype.where(df.Fueltype != "Natural Gas", df.Technology) + return df.Fueltype.mask( + (df.Technology == "OCGT") | (df.Technology == "CCGT"), "Natural Gas" + ) if __name__ == "__main__": @@ -115,7 +117,7 @@ if __name__ == "__main__": configure_logging(snakemake) n = pypsa.Network(snakemake.input.base_network) - countries = snakemake.config["countries"] + countries = snakemake.params.countries ppl = ( pm.powerplants(from_url=True) @@ -134,12 +136,12 @@ if __name__ == "__main__": ppl = ppl.query('not (Country in @available_countries and Fueltype == "Bioenergy")') ppl = pd.concat([ppl, opsd]) - ppl_query = snakemake.config["electricity"]["powerplants_filter"] + ppl_query = snakemake.params.powerplants_filter if isinstance(ppl_query, str): ppl.query(ppl_query, inplace=True) # add carriers from own powerplant files: - custom_ppl_query = snakemake.config["electricity"]["custom_powerplants"] + custom_ppl_query = snakemake.params.custom_powerplants ppl = add_custom_powerplants( ppl, snakemake.input.custom_powerplants, custom_ppl_query ) @@ -149,6 +151,7 @@ if __name__ == "__main__": logging.warning(f"No powerplants known in: {', '.join(countries_wo_ppl)}") substations = n.buses.query("substation_lv") + ppl = ppl.dropna(subset=["lat", "lon"]) ppl = map_country_bus(ppl, substations) bus_null_b = ppl["bus"].isnull() diff --git a/scripts/build_renewable_profiles.py b/scripts/build_renewable_profiles.py index acdc46de..d7a6247c 100644 --- a/scripts/build_renewable_profiles.py +++ b/scripts/build_renewable_profiles.py @@ -64,7 +64,7 @@ Inputs - ``resources/offshore_shapes.geojson``: confer :ref:`shapes` - ``resources/regions_onshore.geojson``: (if not offshore wind), confer :ref:`busregions` - ``resources/regions_offshore.geojson``: (if offshore wind), :ref:`busregions` -- ``"cutouts/" + config["renewable"][{technology}]['cutout']``: :ref:`cutout` +- ``"cutouts/" + params["renewable"][{technology}]['cutout']``: :ref:`cutout` - ``networks/base.nc``: :ref:`base` Outputs @@ -188,7 +188,7 @@ import geopandas as gpd import numpy as np import xarray as xr from _helpers import configure_logging -from dask.distributed import Client, LocalCluster +from dask.distributed import Client from pypsa.geo import haversine from shapely.geometry import LineString @@ -206,20 +206,23 @@ if __name__ == "__main__": nprocesses = int(snakemake.threads) noprogress = snakemake.config["run"].get("disable_progressbar", True) - config = snakemake.config["renewable"][snakemake.wildcards.technology] - resource = config["resource"] # pv panel config / wind turbine config - correction_factor = config.get("correction_factor", 1.0) - capacity_per_sqkm = config["capacity_per_sqkm"] - p_nom_max_meth = config.get("potential", "conservative") + noprogress = noprogress or not snakemake.config["atlite"]["show_progress"] + params = snakemake.params.renewable[snakemake.wildcards.technology] + resource = params["resource"] # pv panel params / wind turbine params + correction_factor = params.get("correction_factor", 1.0) + capacity_per_sqkm = params["capacity_per_sqkm"] + p_nom_max_meth = params.get("potential", "conservative") - if isinstance(config.get("corine", {}), list): - config["corine"] = {"grid_codes": config["corine"]} + if isinstance(params.get("corine", {}), list): + params["corine"] = {"grid_codes": params["corine"]} if correction_factor != 1.0: logger.info(f"correction_factor is set as {correction_factor}") - cluster = LocalCluster(n_workers=nprocesses, threads_per_worker=1) - client = Client(cluster, asynchronous=True) + if nprocesses > 1: + client = Client(n_workers=nprocesses, threads_per_worker=1) + else: + client = None cutout = atlite.Cutout(snakemake.input.cutout) regions = gpd.read_file(snakemake.input.regions) @@ -231,13 +234,13 @@ if __name__ == "__main__": regions = regions.set_index("name").rename_axis("bus") buses = regions.index - res = config.get("excluder_resolution", 100) + res = params.get("excluder_resolution", 100) excluder = atlite.ExclusionContainer(crs=3035, res=res) - if config["natura"]: + if params["natura"]: excluder.add_raster(snakemake.input.natura, nodata=0, allow_no_overlap=True) - corine = config.get("corine", {}) + corine = params.get("corine", {}) if "grid_codes" in corine: codes = corine["grid_codes"] excluder.add_raster(snakemake.input.corine, codes=codes, invert=True, crs=3035) @@ -248,28 +251,28 @@ if __name__ == "__main__": snakemake.input.corine, codes=codes, buffer=buffer, crs=3035 ) - if "ship_threshold" in config: + if "ship_threshold" in params: shipping_threshold = ( - config["ship_threshold"] * 8760 * 6 + params["ship_threshold"] * 8760 * 6 ) # approximation because 6 years of data which is hourly collected func = functools.partial(np.less, shipping_threshold) excluder.add_raster( snakemake.input.ship_density, codes=func, crs=4326, allow_no_overlap=True ) - if config.get("max_depth"): + if params.get("max_depth"): # lambda not supported for atlite + multiprocessing # use named function np.greater with partially frozen argument instead # and exclude areas where: -max_depth > grid cell depth - func = functools.partial(np.greater, -config["max_depth"]) + func = functools.partial(np.greater, -params["max_depth"]) excluder.add_raster(snakemake.input.gebco, codes=func, crs=4326, nodata=-1000) - if "min_shore_distance" in config: - buffer = config["min_shore_distance"] + if "min_shore_distance" in params: + buffer = params["min_shore_distance"] excluder.add_geometry(snakemake.input.country_shapes, buffer=buffer) - if "max_shore_distance" in config: - buffer = config["max_shore_distance"] + if "max_shore_distance" in params: + buffer = params["max_shore_distance"] excluder.add_geometry( snakemake.input.country_shapes, buffer=buffer, invert=True ) @@ -291,7 +294,8 @@ if __name__ == "__main__": potential = capacity_per_sqkm * availability.sum("bus") * area func = getattr(cutout, resource.pop("method")) - resource["dask_kwargs"] = {"scheduler": client} + if client is not None: + resource["dask_kwargs"] = {"scheduler": client} capacity_factor = correction_factor * func(capacity_factor=True, **resource) layout = capacity_factor * area * capacity_per_sqkm profile, capacities = func( @@ -360,13 +364,13 @@ if __name__ == "__main__": # select only buses with some capacity and minimal capacity factor ds = ds.sel( bus=( - (ds["profile"].mean("time") > config.get("min_p_max_pu", 0.0)) - & (ds["p_nom_max"] > config.get("min_p_nom_max", 0.0)) + (ds["profile"].mean("time") > params.get("min_p_max_pu", 0.0)) + & (ds["p_nom_max"] > params.get("min_p_nom_max", 0.0)) ) ) - if "clip_p_max_pu" in config: - min_p_max_pu = config["clip_p_max_pu"] + if "clip_p_max_pu" in params: + min_p_max_pu = params["clip_p_max_pu"] ds["profile"] = ds["profile"].where(ds["profile"] >= min_p_max_pu, 0) ds.to_netcdf(snakemake.output.profile) diff --git a/scripts/build_retro_cost.py b/scripts/build_retro_cost.py index cd1dae8d..c830415e 100644 --- a/scripts/build_retro_cost.py +++ b/scripts/build_retro_cost.py @@ -305,7 +305,7 @@ def prepare_building_stock_data(): u_values.set_index(["country_code", "subsector", "bage", "type"], inplace=True) # only take in config.yaml specified countries into account - countries = snakemake.config["countries"] + countries = snakemake.params.countries area_tot = area_tot.loc[countries] return u_values, country_iso_dic, countries, area_tot, area @@ -513,7 +513,7 @@ def prepare_cost_retro(country_iso_dic): def prepare_temperature_data(): """ - returns the temperature dependent data for each country: + Returns the temperature dependent data for each country: d_heat : length of heating season pd.Series(index=countries) [days/year] on those days, daily average temperature is below @@ -621,7 +621,7 @@ def calculate_costs(u_values, l, cost_retro, window_assumptions): def calculate_new_u(u_values, l, l_weight, window_assumptions, k=0.035): """ - calculate U-values after building retrofitting, depending on the old + Calculate U-values after building retrofitting, depending on the old U-values (u_values). This is for simple insulation measuers, adding an additional layer of insulation. @@ -682,7 +682,7 @@ def map_tabula_to_hotmaps(df_tabula, df_hotmaps, column_prefix): def get_solar_gains_per_year(window_area): """ - returns solar heat gains during heating season in [kWh/a] depending on the + Returns solar heat gains during heating season in [kWh/a] depending on the window area [m^2] of the building, assuming a equal distributed window orientation (east, south, north, west) """ @@ -698,8 +698,8 @@ def get_solar_gains_per_year(window_area): def map_to_lstrength(l_strength, df): """ - renames column names from a pandas dataframe to map tabula retrofitting - strengths [2 = moderate, 3 = ambitious] to l_strength + Renames column names from a pandas dataframe to map tabula retrofitting + strengths [2 = moderate, 3 = ambitious] to l_strength. """ middle = len(l_strength) // 2 map_to_l = pd.MultiIndex.from_arrays( @@ -718,7 +718,7 @@ def map_to_lstrength(l_strength, df): def calculate_heat_losses(u_values, data_tabula, l_strength, temperature_factor): """ - calculates total annual heat losses Q_ht for different insulation + Calculates total annual heat losses Q_ht for different insulation thicknesses (l_strength), depending on current insulation state (u_values), standard building topologies and air ventilation from TABULA (data_tabula) and the accumulated difference between internal and external temperature @@ -840,7 +840,7 @@ def calculate_heat_losses(u_values, data_tabula, l_strength, temperature_factor) def calculate_heat_gains(data_tabula, heat_transfer_perm2, d_heat): """ - calculates heat gains Q_gain [W/m^2], which consititure from gains by: + Calculates heat gains Q_gain [W/m^2], which consititure from gains by: (1) solar radiation (2) internal heat gains """ @@ -885,7 +885,7 @@ def calculate_space_heat_savings( u_values, data_tabula, l_strength, temperature_factor, d_heat ): """ - calculates space heat savings (dE_space [per unit of unrefurbished state]) + Calculates space heat savings (dE_space [per unit of unrefurbished state]) through retrofitting of the thermal envelope by additional insulation material (l_strength[m]) """ @@ -1040,7 +1040,7 @@ if __name__ == "__main__": # ******** config ********************************************************* - retro_opts = snakemake.config["sector"]["retrofitting"] + retro_opts = snakemake.params.retrofitting interest_rate = retro_opts["interest_rate"] annualise_cost = retro_opts["annualise_cost"] # annualise the investment costs tax_weighting = retro_opts[ diff --git a/scripts/build_sequestration_potentials.py b/scripts/build_sequestration_potentials.py index 012effe8..e19a96da 100644 --- a/scripts/build_sequestration_potentials.py +++ b/scripts/build_sequestration_potentials.py @@ -41,7 +41,7 @@ if __name__ == "__main__": "build_sequestration_potentials", simpl="", clusters="181" ) - cf = snakemake.config["sector"]["regional_co2_sequestration_potential"] + cf = snakemake.params.sequestration_potential gdf = gpd.read_file(snakemake.input.sequestration_potential[0]) diff --git a/scripts/build_shapes.py b/scripts/build_shapes.py index 50d21e12..eb837409 100644 --- a/scripts/build_shapes.py +++ b/scripts/build_shapes.py @@ -234,6 +234,7 @@ def nuts3(country_shapes, nuts3, nuts3pop, nuts3gdp, ch_cantons, ch_popgdp): manual = gpd.GeoDataFrame( [["BA1", "BA", 3871.0], ["RS1", "RS", 7210.0], ["AL1", "AL", 2893.0]], columns=["NUTS_ID", "country", "pop"], + geometry=gpd.GeoSeries(), ) manual["geometry"] = manual["country"].map(country_shapes) manual = manual.dropna() @@ -254,13 +255,11 @@ if __name__ == "__main__": snakemake = mock_snakemake("build_shapes") configure_logging(snakemake) - country_shapes = countries( - snakemake.input.naturalearth, snakemake.config["countries"] - ) + country_shapes = countries(snakemake.input.naturalearth, snakemake.params.countries) country_shapes.reset_index().to_file(snakemake.output.country_shapes) offshore_shapes = eez( - country_shapes, snakemake.input.eez, snakemake.config["countries"] + country_shapes, snakemake.input.eez, snakemake.params.countries ) offshore_shapes.reset_index().to_file(snakemake.output.offshore_shapes) diff --git a/scripts/build_solar_thermal_profiles.py b/scripts/build_solar_thermal_profiles.py index dbca9b73..3e431591 100644 --- a/scripts/build_solar_thermal_profiles.py +++ b/scripts/build_solar_thermal_profiles.py @@ -28,7 +28,7 @@ if __name__ == "__main__": cluster = LocalCluster(n_workers=nprocesses, threads_per_worker=1) client = Client(cluster, asynchronous=True) - config = snakemake.config["solar_thermal"] + config = snakemake.params.solar_thermal cutout_name = snakemake.input.cutout year = snakemake.wildcards.weather_year @@ -37,7 +37,7 @@ if __name__ == "__main__": snapshots = dict(start=year, end=str(int(year) + 1), inclusive="left") cutout_name = cutout_name.format(weather_year=year) else: - snapshots = snakemake.config["snapshots"] + snapshots = snakemake.params.snapshots time = pd.date_range(freq="h", **snapshots) if snakemake.config["atlite"].get("drop_leap_day", False): diff --git a/scripts/build_temperature_profiles.py b/scripts/build_temperature_profiles.py index d5b58a94..ab4f0a72 100644 --- a/scripts/build_temperature_profiles.py +++ b/scripts/build_temperature_profiles.py @@ -34,7 +34,7 @@ if __name__ == "__main__": snapshots = dict(start=year, end=str(int(year) + 1), inclusive="left") cutout_name = cutout_name.format(weather_year=year) else: - snapshots = snakemake.config["snapshots"] + snapshots = snakemake.params.snapshots time = pd.date_range(freq="h", **snapshots) if snakemake.config["atlite"].get("drop_leap_day", False): diff --git a/scripts/build_transport_demand.py b/scripts/build_transport_demand.py index a6a745de..2ab07684 100644 --- a/scripts/build_transport_demand.py +++ b/scripts/build_transport_demand.py @@ -176,13 +176,13 @@ if __name__ == "__main__": snakemake.input.pop_weighted_energy_totals, index_col=0 ) - options = snakemake.config["sector"] + options = snakemake.params.sector year = snakemake.wildcards.weather_year snapshots = ( dict(start=year, end=str(int(year) + 1), inclusive="left") if year - else snakemake.config["snapshots"] + else snakemake.params.snapshots ) snapshots = pd.date_range(freq="h", **snapshots, tz="UTC") if snakemake.config["atlite"].get("drop_leap_day", False): diff --git a/scripts/cluster_network.py b/scripts/cluster_network.py index 95445caf..05e584d7 100644 --- a/scripts/cluster_network.py +++ b/scripts/cluster_network.py @@ -89,7 +89,7 @@ Description **Is it possible to run the model without the** ``simplify_network`` **rule?** No, the network clustering methods in the PyPSA module - `pypsa.networkclustering `_ + `pypsa.clustering.spatial `_ do not work reliably with multiple voltage levels and transformers. .. tip:: @@ -133,8 +133,8 @@ import pandas as pd import pyomo.environ as po import pypsa import seaborn as sns -from _helpers import configure_logging, get_aggregation_strategies, update_p_nom_max -from pypsa.networkclustering import ( +from _helpers import configure_logging, update_p_nom_max +from pypsa.clustering.spatial import ( busmap_by_greedy_modularity, busmap_by_hac, busmap_by_kmeans, @@ -186,7 +186,7 @@ def get_feature_for_hac(n, buses_i=None, feature=None): if "offwind" in carriers: carriers.remove("offwind") carriers = np.append( - carriers, network.generators.carrier.filter(like="offwind").unique() + carriers, n.generators.carrier.filter(like="offwind").unique() ) if feature.split("-")[1] == "cap": @@ -395,10 +395,6 @@ def clustering_for_n_clusters( extended_link_costs=0, focus_weights=None, ): - bus_strategies, generator_strategies = get_aggregation_strategies( - aggregation_strategies - ) - if not isinstance(custom_busmap, pd.Series): busmap = busmap_for_n_clusters( n, n_clusters, solver_name, focus_weights, algorithm, feature @@ -406,15 +402,20 @@ def clustering_for_n_clusters( else: busmap = custom_busmap + line_strategies = aggregation_strategies.get("lines", dict()) + generator_strategies = aggregation_strategies.get("generators", dict()) + one_port_strategies = aggregation_strategies.get("one_ports", dict()) + clustering = get_clustering_from_busmap( n, busmap, - bus_strategies=bus_strategies, aggregate_generators_weighted=True, aggregate_generators_carriers=aggregate_carriers, aggregate_one_ports=["Load", "StorageUnit"], line_length_factor=line_length_factor, + line_strategies=line_strategies, generator_strategies=generator_strategies, + one_port_strategies=one_port_strategies, scale_link_capital_costs=False, ) @@ -424,7 +425,10 @@ def clustering_for_n_clusters( n.links.eval("underwater_fraction * length").div(nc.links.length).dropna() ) nc.links["capital_cost"] = nc.links["capital_cost"].add( - (nc.links.length - n.links.length).clip(lower=0).mul(extended_link_costs), + (nc.links.length - n.links.length) + .clip(lower=0) + .mul(extended_link_costs) + .dropna(), fill_value=0, ) @@ -462,28 +466,20 @@ if __name__ == "__main__": ) configure_logging(snakemake) + params = snakemake.params + solver_name = snakemake.config["solving"]["solver"]["name"] + n = pypsa.Network(snakemake.input.network) - focus_weights = snakemake.config.get("focus_weights", None) - - renewable_carriers = pd.Index( - [ - tech - for tech in n.generators.carrier.unique() - if tech in snakemake.config["renewable"] - ] - ) - - exclude_carriers = snakemake.config["clustering"]["cluster_network"].get( - "exclude_carriers", [] - ) + exclude_carriers = params.cluster_network["exclude_carriers"] aggregate_carriers = set(n.generators.carrier) - set(exclude_carriers) + conventional_carriers = set(params.conventional_carriers) if snakemake.wildcards.clusters.endswith("m"): n_clusters = int(snakemake.wildcards.clusters[:-1]) - conventional = set( - snakemake.config["electricity"].get("conventional_carriers", []) - ) - aggregate_carriers = conventional.intersection(aggregate_carriers) + aggregate_carriers = params.conventional_carriers & aggregate_carriers + elif snakemake.wildcards.clusters.endswith("c"): + n_clusters = int(snakemake.wildcards.clusters[:-1]) + aggregate_carriers = aggregate_carriers - conventional_carriers elif snakemake.wildcards.clusters == "all": n_clusters = len(n.buses) else: @@ -493,37 +489,20 @@ if __name__ == "__main__": # Fast-path if no clustering is necessary busmap = n.buses.index.to_series() linemap = n.lines.index.to_series() - clustering = pypsa.networkclustering.Clustering( + clustering = pypsa.clustering.spatial.Clustering( n, busmap, linemap, linemap, pd.Series(dtype="O") ) else: - line_length_factor = snakemake.config["lines"]["length_factor"] Nyears = n.snapshot_weightings.objective.sum() / 8760 hvac_overhead_cost = load_costs( snakemake.input.tech_costs, - snakemake.config["costs"], - snakemake.config["electricity"], + params.costs, + params.max_hours, Nyears, ).at["HVAC overhead", "capital_cost"] - def consense(x): - v = x.iat[0] - assert ( - x == v - ).all() or x.isnull().all(), "The `potential` configuration option must agree for all renewable carriers, for now!" - return v - - aggregation_strategies = snakemake.config["clustering"].get( - "aggregation_strategies", {} - ) - # translate str entries of aggregation_strategies to pd.Series functions: - aggregation_strategies = { - p: {k: getattr(pd.Series, v) for k, v in aggregation_strategies[p].items()} - for p in aggregation_strategies.keys() - } - - custom_busmap = snakemake.config["enable"].get("custom_busmap", False) + custom_busmap = params.custom_busmap if custom_busmap: custom_busmap = pd.read_csv( snakemake.input.custom_busmap, index_col=0, squeeze=True @@ -531,21 +510,18 @@ if __name__ == "__main__": custom_busmap.index = custom_busmap.index.astype(str) logger.info(f"Imported custom busmap from {snakemake.input.custom_busmap}") - cluster_config = snakemake.config.get("clustering", {}).get( - "cluster_network", {} - ) clustering = clustering_for_n_clusters( n, n_clusters, custom_busmap, aggregate_carriers, - line_length_factor, - aggregation_strategies, - snakemake.config["solving"]["solver"]["name"], - cluster_config.get("algorithm", "hac"), - cluster_config.get("feature", "solar+onwind-time"), + params.length_factor, + params.aggregation_strategies, + solver_name, + params.cluster_network["algorithm"], + params.cluster_network["feature"], hvac_overhead_cost, - focus_weights, + params.focus_weights, ) update_p_nom_max(clustering.network) diff --git a/scripts/make_summary.py b/scripts/make_summary.py index 1130f036..5b9c93d0 100644 --- a/scripts/make_summary.py +++ b/scripts/make_summary.py @@ -16,7 +16,6 @@ import sys import numpy as np import pandas as pd import pypsa -from _helpers import override_component_attrs from prepare_sector_network import prepare_costs idx = pd.IndexSlice @@ -198,7 +197,7 @@ def calculate_costs(n, label, costs): def calculate_cumulative_cost(): - planning_horizons = snakemake.config["scenario"]["planning_horizons"] + planning_horizons = snakemake.params.scenario["planning_horizons"] cumulative_cost = pd.DataFrame( index=df["costs"].sum().index, @@ -300,9 +299,9 @@ def calculate_energy(n, label, energy): ) # remove values where bus is missing (bug in nomopyomo) no_bus = c.df.index[c.df["bus" + port] == ""] - totals.loc[no_bus] = n.component_attrs[c.name].loc[ - "p" + port, "default" - ] + totals.loc[no_bus] = float( + n.component_attrs[c.name].loc["p" + port, "default"] + ) c_energies -= totals.groupby(c.df.carrier).sum() c_energies = pd.concat([c_energies], keys=[c.list_name]) @@ -660,8 +659,7 @@ def make_summaries(networks_dict): for label, filename in networks_dict.items(): logger.info(f"Make summary for scenario {label}, using {filename}") - overrides = override_component_attrs(snakemake.input.overrides) - n = pypsa.Network(filename, override_component_attrs=overrides) + n = pypsa.Network(filename) assign_carriers(n) assign_locations(n) @@ -689,20 +687,20 @@ if __name__ == "__main__": (weather_year, cluster, ll, opt + sector_opt, planning_horizon): "results/" + snakemake.params.RDIR + f"/postnetworks/elec_s{simpl}_{cluster}_l{ll}_{opt}_{sector_opt}_{planning_horizon}.nc" - for weather_year in snakemake.config["scenario"]["weather_year"] - for simpl in snakemake.config["scenario"]["simpl"] - for cluster in snakemake.config["scenario"]["clusters"] - for opt in snakemake.config["scenario"]["opts"] - for sector_opt in snakemake.config["scenario"]["sector_opts"] - for ll in snakemake.config["scenario"]["ll"] - for planning_horizon in snakemake.config["scenario"]["planning_horizons"] + for weather_year in snakemake.params.scenario["weather_year"] + for simpl in snakemake.params.scenario["simpl"] + for cluster in snakemake.params.scenario["clusters"] + for opt in snakemake.params.scenario["opts"] + for sector_opt in snakemake.params.scenario["sector_opts"] + for ll in snakemake.params.scenario["ll"] + for planning_horizon in snakemake.params.scenario["planning_horizons"] } - Nyears = len(pd.date_range(freq="h", **snakemake.config["snapshots"])) / 8760 + Nyears = len(pd.date_range(freq="h", **snakemake.params.snapshots)) / 8760 costs_db = prepare_costs( snakemake.input.costs, - snakemake.config["costs"], + snakemake.params.costs, Nyears, ) @@ -712,7 +710,7 @@ if __name__ == "__main__": to_csv(df) - if snakemake.config["foresight"] == "myopic": + if snakemake.params.foresight == "myopic": cumulative_cost = calculate_cumulative_cost() cumulative_cost.to_csv( "results/" + snakemake.params.RDIR + "/csvs/cumulative_cost.csv" diff --git a/scripts/plot_network.py b/scripts/plot_network.py index f5a6018e..45059a46 100644 --- a/scripts/plot_network.py +++ b/scripts/plot_network.py @@ -20,7 +20,6 @@ import geopandas as gpd import matplotlib.pyplot as plt import pandas as pd import pypsa -from _helpers import override_component_attrs from make_summary import assign_carriers from plot_summary import preferred_order, rename_techs from pypsa.plot import add_legend_circles, add_legend_lines, add_legend_patches @@ -70,7 +69,7 @@ def plot_map( transmission=False, with_legend=True, ): - tech_colors = snakemake.config["plotting"]["tech_colors"] + tech_colors = snakemake.params.plotting["tech_colors"] n = network.copy() assign_location(n) @@ -116,9 +115,7 @@ def plot_map( costs = costs.stack() # .sort_index() # hack because impossible to drop buses... - eu_location = snakemake.config["plotting"].get( - "eu_node_location", dict(x=-5.5, y=46) - ) + eu_location = snakemake.params.plotting.get("eu_node_location", dict(x=-5.5, y=46)) n.buses.loc["EU gas", "x"] = eu_location["x"] n.buses.loc["EU gas", "y"] = eu_location["y"] @@ -315,7 +312,7 @@ def plot_h2_map(network, regions): h2_new = n.links[n.links.carrier == "H2 pipeline"] h2_retro = n.links[n.links.carrier == "H2 pipeline retrofitted"] - if snakemake.config["foresight"] == "myopic": + if snakemake.params.foresight == "myopic": # sum capacitiy for pipelines from different investment periods h2_new = group_pipes(h2_new) @@ -558,7 +555,7 @@ def plot_ch4_map(network): link_widths_used = max_usage / linewidth_factor link_widths_used[max_usage < line_lower_threshold] = 0.0 - tech_colors = snakemake.config["plotting"]["tech_colors"] + tech_colors = snakemake.params.plotting["tech_colors"] pipe_colors = { "gas pipeline": "#f08080", @@ -700,7 +697,7 @@ def plot_map_without(network): # hack because impossible to drop buses... if "EU gas" in n.buses.index: - eu_location = snakemake.config["plotting"].get( + eu_location = snakemake.params.plotting.get( "eu_node_location", dict(x=-5.5, y=46) ) n.buses.loc["EU gas", "x"] = eu_location["x"] @@ -876,7 +873,7 @@ def plot_series(network, carrier="AC", name="test"): stacked=True, linewidth=0.0, color=[ - snakemake.config["plotting"]["tech_colors"][i.replace(suffix, "")] + snakemake.params.plotting["tech_colors"][i.replace(suffix, "")] for i in new_columns ], ) @@ -933,12 +930,11 @@ if __name__ == "__main__": logging.basicConfig(level=snakemake.config["logging"]["level"]) - overrides = override_component_attrs(snakemake.input.overrides) - n = pypsa.Network(snakemake.input.network, override_component_attrs=overrides) + n = pypsa.Network(snakemake.input.network) regions = gpd.read_file(snakemake.input.regions).set_index("name") - map_opts = snakemake.config["plotting"]["map"] + map_opts = snakemake.params.plotting["map"] if map_opts["boundaries"] is None: map_opts["boundaries"] = regions.total_bounds[[0, 2, 1, 3]] + [-1, 1, -1, 1] diff --git a/scripts/plot_summary.py b/scripts/plot_summary.py index cfa8e361..e7de5473 100644 --- a/scripts/plot_summary.py +++ b/scripts/plot_summary.py @@ -142,10 +142,10 @@ def plot_costs(): df = df.groupby(df.index.map(rename_techs)).sum() - to_drop = df.index[df.max(axis=1) < snakemake.config["plotting"]["costs_threshold"]] + to_drop = df.index[df.max(axis=1) < snakemake.params.plotting["costs_threshold"]] logger.info( - f"Dropping technology with costs below {snakemake.config['plotting']['costs_threshold']} EUR billion per year" + f"Dropping technology with costs below {snakemake.params['plotting']['costs_threshold']} EUR billion per year" ) logger.debug(df.loc[to_drop]) @@ -165,7 +165,7 @@ def plot_costs(): kind="bar", ax=ax, stacked=True, - color=[snakemake.config["plotting"]["tech_colors"][i] for i in new_index], + color=[snakemake.params.plotting["tech_colors"][i] for i in new_index], ) handles, labels = ax.get_legend_handles_labels() @@ -173,7 +173,7 @@ def plot_costs(): handles.reverse() labels.reverse() - ax.set_ylim([0, snakemake.config["plotting"]["costs_max"]]) + ax.set_ylim([0, snakemake.params.plotting["costs_max"]]) ax.set_ylabel("System Cost [EUR billion per year]") @@ -201,11 +201,11 @@ def plot_energy(): df = df.groupby(df.index.map(rename_techs)).sum() to_drop = df.index[ - df.abs().max(axis=1) < snakemake.config["plotting"]["energy_threshold"] + df.abs().max(axis=1) < snakemake.params.plotting["energy_threshold"] ] logger.info( - f"Dropping all technology with energy consumption or production below {snakemake.config['plotting']['energy_threshold']} TWh/a" + f"Dropping all technology with energy consumption or production below {snakemake.params['plotting']['energy_threshold']} TWh/a" ) logger.debug(df.loc[to_drop]) @@ -227,7 +227,7 @@ def plot_energy(): kind="bar", ax=ax, stacked=True, - color=[snakemake.config["plotting"]["tech_colors"][i] for i in new_index], + color=[snakemake.params.plotting["tech_colors"][i] for i in new_index], ) handles, labels = ax.get_legend_handles_labels() @@ -237,8 +237,8 @@ def plot_energy(): ax.set_ylim( [ - snakemake.config["plotting"]["energy_min"], - snakemake.config["plotting"]["energy_max"], + snakemake.params.plotting["energy_min"], + snakemake.params.plotting["energy_max"], ] ) @@ -287,7 +287,7 @@ def plot_balances(): df = df.groupby(df.index.map(rename_techs)).sum() to_drop = df.index[ - df.abs().max(axis=1) < snakemake.config["plotting"]["energy_threshold"] / 10 + df.abs().max(axis=1) < snakemake.params.plotting["energy_threshold"] / 10 ] if v[0] in co2_carriers: @@ -296,7 +296,7 @@ def plot_balances(): units = "TWh/a" logger.debug( - f"Dropping technology energy balance smaller than {snakemake.config['plotting']['energy_threshold']/10} {units}" + f"Dropping technology energy balance smaller than {snakemake.params['plotting']['energy_threshold']/10} {units}" ) logger.debug(df.loc[to_drop]) @@ -317,7 +317,7 @@ def plot_balances(): kind="bar", ax=ax, stacked=True, - color=[snakemake.config["plotting"]["tech_colors"][i] for i in new_index], + color=[snakemake.params.plotting["tech_colors"][i] for i in new_index], ) handles, labels = ax.get_legend_handles_labels() @@ -455,10 +455,10 @@ def plot_carbon_budget_distribution(input_eurostat): ax1 = plt.subplot(gs1[0, 0]) ax1.set_ylabel("CO$_2$ emissions (Gt per year)", fontsize=22) ax1.set_ylim([0, 5]) - ax1.set_xlim([1990, snakemake.config["scenario"]["planning_horizons"][-1] + 1]) + ax1.set_xlim([1990, snakemake.params.planning_horizons[-1] + 1]) path_cb = "results/" + snakemake.params.RDIR + "/csvs/" - countries = snakemake.config["countries"] + countries = snakemake.params.countries e_1990 = co2_emissions_year(countries, input_eurostat, opts, year=1990) CO2_CAP = pd.read_csv(path_cb + "carbon_budget_distribution.csv", index_col=0) @@ -555,7 +555,7 @@ if __name__ == "__main__": plot_balances() - for sector_opts in snakemake.config["scenario"]["sector_opts"]: + for sector_opts in snakemake.params.sector_opts: opts = sector_opts.split("-") for o in opts: if "cb" in o: diff --git a/scripts/prepare_network.py b/scripts/prepare_network.py index 72d13d2d..7e6fce7c 100755 --- a/scripts/prepare_network.py +++ b/scripts/prepare_network.py @@ -233,7 +233,22 @@ def enforce_autarky(n, only_crossborder=False): n.mremove("Link", links_rm) -def set_line_nom_max(n, s_nom_max_set=np.inf, p_nom_max_set=np.inf): +def set_line_nom_max( + n, + s_nom_max_set=np.inf, + p_nom_max_set=np.inf, + s_nom_max_ext=np.inf, + p_nom_max_ext=np.inf, +): + if np.isfinite(s_nom_max_ext) and s_nom_max_ext > 0: + logger.info(f"Limiting line extensions to {s_nom_max_ext} MW") + n.lines["s_nom_max"] = n.lines["s_nom"] + s_nom_max_ext + + if np.isfinite(p_nom_max_ext) and p_nom_max_ext > 0: + logger.info(f"Limiting line extensions to {p_nom_max_ext} MW") + hvdc = n.links.index[n.links.carrier == "DC"] + n.links.loc[hvdc, "p_nom_max"] = n.links.loc[hvdc, "p_nom"] + p_nom_max_ext + n.lines.s_nom_max.clip(upper=s_nom_max_set, inplace=True) n.links.p_nom_max.clip(upper=p_nom_max_set, inplace=True) @@ -258,12 +273,12 @@ if __name__ == "__main__": Nyears = n.snapshot_weightings.objective.sum() / 8760.0 costs = load_costs( snakemake.input.tech_costs, - snakemake.config["costs"], - snakemake.config["electricity"], + snakemake.params.costs, + snakemake.params.max_hours, Nyears, ) - set_line_s_max_pu(n, snakemake.config["lines"]["s_max_pu"]) + set_line_s_max_pu(n, snakemake.params.lines["s_max_pu"]) for o in opts: m = re.match(r"^\d+h$", o, re.IGNORECASE) @@ -282,11 +297,11 @@ if __name__ == "__main__": if "Co2L" in o: m = re.findall("[0-9]*\.?[0-9]+$", o) if len(m) > 0: - co2limit = float(m[0]) * snakemake.config["electricity"]["co2base"] + co2limit = float(m[0]) * snakemake.params.co2base add_co2limit(n, co2limit, Nyears) logger.info("Setting CO2 limit according to wildcard value.") else: - add_co2limit(n, snakemake.config["electricity"]["co2limit"], Nyears) + add_co2limit(n, snakemake.params.co2limit, Nyears) logger.info("Setting CO2 limit according to config value.") break @@ -298,11 +313,13 @@ if __name__ == "__main__": add_gaslimit(n, limit, Nyears) logger.info("Setting gas usage limit according to wildcard value.") else: - add_gaslimit(n, snakemake.config["electricity"].get("gaslimit"), Nyears) + add_gaslimit(n, snakemake.params.gaslimit, Nyears) logger.info("Setting gas usage limit according to config value.") break for o in opts: + if "+" not in o: + continue oo = o.split("+") suptechs = map(lambda c: c.split("-", 2)[0], n.carriers.index) if oo[0].startswith(tuple(suptechs)): @@ -327,7 +344,7 @@ if __name__ == "__main__": add_emission_prices(n, dict(co2=float(m[0]))) else: logger.info("Setting emission prices according to config value.") - add_emission_prices(n, snakemake.config["costs"]["emission_prices"]) + add_emission_prices(n, snakemake.params.costs["emission_prices"]) break ll_type, factor = snakemake.wildcards.ll[0], snakemake.wildcards.ll[1:] @@ -335,8 +352,10 @@ if __name__ == "__main__": set_line_nom_max( n, - s_nom_max_set=snakemake.config["lines"].get("s_nom_max,", np.inf), - p_nom_max_set=snakemake.config["links"].get("p_nom_max,", np.inf), + s_nom_max_set=snakemake.params.lines.get("s_nom_max", np.inf), + p_nom_max_set=snakemake.params.links.get("p_nom_max", np.inf), + s_nom_max_ext=snakemake.params.lines.get("max_extension", np.inf), + p_nom_max_ext=snakemake.params.links.get("max_extension", np.inf), ) if "ATK" in opts: diff --git a/scripts/prepare_sector_network.py b/scripts/prepare_sector_network.py index 04407f2f..04a9360f 100644 --- a/scripts/prepare_sector_network.py +++ b/scripts/prepare_sector_network.py @@ -17,18 +17,14 @@ import numpy as np import pandas as pd import pypsa import xarray as xr -from _helpers import ( - generate_periodic_profiles, - override_component_attrs, - update_config_with_sector_opts, -) +from _helpers import generate_periodic_profiles, update_config_with_sector_opts +from add_electricity import calculate_annuity, sanitize_carriers from build_energy_totals import build_co2_totals, build_eea_co2, build_eurostat_co2 from networkx.algorithms import complement from networkx.algorithms.connectivity.edge_augmentation import k_edge_augmentation from pypsa.geo import haversine_pts from pypsa.io import import_components_from_dataframe from scipy.stats import beta -from vresutils.costdata import annuity logger = logging.getLogger(__name__) @@ -200,12 +196,12 @@ def co2_emissions_year( """ Calculate CO2 emissions in one specific year (e.g. 1990 or 2018). """ - emissions_scope = snakemake.config["energy"]["emissions"] + emissions_scope = snakemake.params.energy["emissions"] eea_co2 = build_eea_co2(snakemake.input.co2, year, emissions_scope) # TODO: read Eurostat data from year > 2014 # this only affects the estimation of CO2 emissions for BA, RS, AL, ME, MK - report_year = snakemake.config["energy"]["eurostat_report_year"] + report_year = snakemake.params.energy["eurostat_report_year"] if year > 2014: eurostat_co2 = build_eurostat_co2( input_eurostat, countries, report_year, year=2014 @@ -241,7 +237,7 @@ def build_carbon_budget(o, input_eurostat, fn, emissions_scope, report_year): carbon_budget = float(o[o.find("cb") + 2 : o.find("ex")]) r = float(o[o.find("ex") + 2 :]) - countries = snakemake.config["countries"] + countries = snakemake.params.countries e_1990 = co2_emissions_year( countries, input_eurostat, opts, emissions_scope, report_year, year=1990 @@ -252,7 +248,7 @@ def build_carbon_budget(o, input_eurostat, fn, emissions_scope, report_year): countries, input_eurostat, opts, emissions_scope, report_year, year=2018 ) - planning_horizons = snakemake.config["scenario"]["planning_horizons"] + planning_horizons = snakemake.params.planning_horizons t_0 = planning_horizons[0] if "be" in o: @@ -391,7 +387,7 @@ def update_wind_solar_costs(n, costs): with xr.open_dataset(profile) as ds: underwater_fraction = ds["underwater_fraction"].to_pandas() connection_cost = ( - snakemake.config["lines"]["length_factor"] + snakemake.params.length_factor * ds["average_distance"].to_pandas() * ( underwater_fraction @@ -483,8 +479,8 @@ def remove_elec_base_techs(n): batteries and H2) from base electricity-only network, since they're added here differently using links. """ - for c in n.iterate_components(snakemake.config["pypsa_eur"]): - to_keep = snakemake.config["pypsa_eur"][c.name] + for c in n.iterate_components(snakemake.params.pypsa_eur): + to_keep = snakemake.params.pypsa_eur[c.name] to_remove = pd.Index(c.df.carrier.unique()).symmetric_difference(to_keep) if to_remove.empty: continue @@ -674,7 +670,7 @@ def add_dac(n, costs): def add_co2limit(n, nyears=1.0, limit=0.0): logger.info(f"Adding CO2 budget limit as per unit of 1990 levels of {limit}") - countries = snakemake.config["countries"] + countries = snakemake.params.countries sectors = emission_sectors_from_opts(opts) @@ -731,7 +727,7 @@ def cycling_shift(df, steps=1): return df -def prepare_costs(cost_file, config, nyears): +def prepare_costs(cost_file, params, nyears): # set all asset costs and other parameters costs = pd.read_csv(cost_file, index_col=[0, 1]).sort_index() @@ -743,10 +739,10 @@ def prepare_costs(cost_file, config, nyears): costs.loc[:, "value"].unstack(level=1).groupby("technology").sum(min_count=1) ) - costs = costs.fillna(config["fill_values"]) + costs = costs.fillna(params["fill_values"]) def annuity_factor(v): - return annuity(v["lifetime"], v["discount rate"]) + v["FOM"] / 100 + return calculate_annuity(v["lifetime"], v["discount rate"]) + v["FOM"] / 100 costs["fixed"] = [ annuity_factor(v) * v["investment"] * nyears for i, v in costs.iterrows() @@ -791,7 +787,7 @@ def add_ammonia(n, costs): nodes = pop_layout.index - cf_industry = snakemake.config["industry"] + cf_industry = snakemake.params.industry n.add("Carrier", "NH3") @@ -855,7 +851,7 @@ def add_wave(n, wave_cost_factor): capacity = pd.Series({"Attenuator": 750, "F2HB": 1000, "MultiPA": 600}) # in EUR/MW - annuity_factor = annuity(25, 0.07) + 0.03 + annuity_factor = calculate_annuity(25, 0.07) + 0.03 costs = ( 1e6 * wave_cost_factor @@ -1106,10 +1102,14 @@ def add_storage_and_grids(n, costs): lifetime=costs.at["OCGT", "lifetime"], ) - cavern_types = snakemake.config["sector"]["hydrogen_underground_storage_locations"] + cavern_types = snakemake.params.sector["hydrogen_underground_storage_locations"] h2_caverns = pd.read_csv(snakemake.input.h2_cavern, index_col=0) - if not h2_caverns.empty and options["hydrogen_underground_storage"]: + if ( + not h2_caverns.empty + and options["hydrogen_underground_storage"] + and set(cavern_types).intersection(h2_caverns.columns) + ): h2_caverns = h2_caverns[cavern_types].sum(axis=1) # only use sites with at least 2 TWh potential @@ -3056,7 +3056,6 @@ def maybe_adjust_costs_and_potentials(n, opts): logger.info(f"changing {attr} for {carrier} by factor {factor}") -# TODO this should rather be a config no wildcard def limit_individual_line_extension(n, maxext): logger.info(f"Limiting new HVAC and HVDC extensions to {maxext} MW") n.lines["s_nom_max"] = n.lines["s_nom"] + maxext @@ -3275,14 +3274,13 @@ if __name__ == "__main__": update_config_with_sector_opts(snakemake.config, snakemake.wildcards.sector_opts) - options = snakemake.config["sector"] + options = snakemake.params.sector opts = snakemake.wildcards.sector_opts.split("-") investment_year = int(snakemake.wildcards.planning_horizons[-4:]) - overrides = override_component_attrs(snakemake.input.overrides) - n = pypsa.Network(snakemake.input.network, override_component_attrs=overrides) + n = pypsa.Network(snakemake.input.network) pop_layout = pd.read_csv(snakemake.input.clustered_pop_layout, index_col=0) nhours = n.snapshot_weightings.generators.sum() @@ -3290,7 +3288,7 @@ if __name__ == "__main__": costs = prepare_costs( snakemake.input.costs, - snakemake.config["costs"], + snakemake.params.costs, nyears, ) @@ -3306,10 +3304,10 @@ if __name__ == "__main__": spatial = define_spatial(pop_layout.index, options) - if snakemake.config["foresight"] == "myopic": + if snakemake.params.foresight == "myopic": add_lifetime_wind_solar(n, costs) - conventional = snakemake.config["existing_capacities"]["conventional_carriers"] + conventional = snakemake.params.conventional_carriers for carrier in conventional: add_carrier_buses(n, carrier) @@ -3379,15 +3377,15 @@ if __name__ == "__main__": n = set_temporal_aggregation(n, opts, solver_name, drop_leap_day) limit_type = "config" - limit = get(snakemake.config["co2_budget"], investment_year) + limit = get(snakemake.params.co2_budget, investment_year) for o in opts: if "cb" not in o: continue limit_type = "carbon budget" fn = "results/" + snakemake.params.RDIR + "/csvs/carbon_budget_distribution.csv" if not os.path.exists(fn): - emissions_scope = snakemake.config["energy"]["emissions"] - report_year = snakemake.config["energy"]["eurostat_report_year"] + emissions_scope = snakemake.params.emissions_scope + report_year = snakemake.params.eurostat_report_year build_carbon_budget( o, snakemake.input.eurostat, fn, emissions_scope, report_year ) @@ -3422,8 +3420,8 @@ if __name__ == "__main__": if options["electricity_grid_connection"]: add_electricity_grid_connection(n, costs) - first_year_myopic = (snakemake.config["foresight"] == "myopic") and ( - snakemake.config["scenario"]["planning_horizons"][0] == investment_year + first_year_myopic = (snakemake.params.foresight == "myopic") and ( + snakemake.params.planning_horizons[0] == investment_year ) if options.get("cluster_heat_buses", False) and not first_year_myopic: @@ -3431,4 +3429,6 @@ if __name__ == "__main__": n.meta = dict(snakemake.config, **dict(wildcards=dict(snakemake.wildcards))) + sanitize_carriers(n, snakemake.config) + n.export_to_netcdf(snakemake.output[0]) diff --git a/scripts/retrieve_databundle.py b/scripts/retrieve_databundle.py index 0c6a7feb..75d8519e 100644 --- a/scripts/retrieve_databundle.py +++ b/scripts/retrieve_databundle.py @@ -58,9 +58,8 @@ if __name__ == "__main__": else: url = "https://zenodo.org/record/3517935/files/pypsa-eur-data-bundle.tar.xz" - # Save locations tarball_fn = Path(f"{rootpath}/bundle.tar.xz") - to_fn = Path(f"{rootpath}/data") + to_fn = Path(rootpath) / Path(snakemake.output[0]).parent.parent logger.info(f"Downloading databundle from '{url}'.") disable_progress = snakemake.config["run"].get("disable_progressbar", False) diff --git a/scripts/retrieve_gas_infrastructure_data.py b/scripts/retrieve_gas_infrastructure_data.py index dda7bd8c..42b726db 100644 --- a/scripts/retrieve_gas_infrastructure_data.py +++ b/scripts/retrieve_gas_infrastructure_data.py @@ -29,7 +29,7 @@ if __name__ == "__main__": # Save locations zip_fn = Path(f"{rootpath}/IGGIELGN.zip") - to_fn = Path(f"{rootpath}/data/gas_network/scigrid-gas") + to_fn = Path(rootpath) / Path(snakemake.output[0]).parent.parent logger.info(f"Downloading databundle from '{url}'.") disable_progress = snakemake.config["run"].get("disable_progressbar", False) diff --git a/scripts/retrieve_sector_databundle.py b/scripts/retrieve_sector_databundle.py index 97426ab2..0d172c8d 100644 --- a/scripts/retrieve_sector_databundle.py +++ b/scripts/retrieve_sector_databundle.py @@ -10,23 +10,25 @@ import logging logger = logging.getLogger(__name__) -import os -import sys import tarfile from pathlib import Path -# Add pypsa-eur scripts to path for import of _helpers -sys.path.insert(0, os.getcwd() + "/../pypsa-eur/scripts") - from _helpers import configure_logging, progress_retrieve if __name__ == "__main__": + if "snakemake" not in globals(): + from _helpers import mock_snakemake + + snakemake = mock_snakemake("retrieve_databundle") + rootpath = ".." + else: + rootpath = "." configure_logging(snakemake) url = "https://zenodo.org/record/5824485/files/pypsa-eur-sec-data-bundle.tar.gz" - tarball_fn = Path("sector-bundle.tar.gz") - to_fn = Path("data") + tarball_fn = Path(f"{rootpath}/sector-bundle.tar.gz") + to_fn = Path(rootpath) / Path(snakemake.output[0]).parent.parent logger.info(f"Downloading databundle from '{url}'.") disable_progress = snakemake.config["run"].get("disable_progressbar", False) diff --git a/scripts/simplify_network.py b/scripts/simplify_network.py index bc450550..c433f2de 100644 --- a/scripts/simplify_network.py +++ b/scripts/simplify_network.py @@ -86,22 +86,21 @@ The rule :mod:`simplify_network` does up to four things: """ import logging -from functools import reduce +from functools import partial, reduce import numpy as np import pandas as pd import pypsa import scipy as sp -from _helpers import configure_logging, get_aggregation_strategies, update_p_nom_max +from _helpers import configure_logging, update_p_nom_max from add_electricity import load_costs from cluster_network import cluster_regions, clustering_for_n_clusters -from pypsa.io import import_components_from_dataframe, import_series_from_dataframe -from pypsa.networkclustering import ( - aggregategenerators, +from pypsa.clustering.spatial import ( aggregateoneport, busmap_by_stubs, get_clustering_from_busmap, ) +from pypsa.io import import_components_from_dataframe, import_series_from_dataframe from scipy.sparse.csgraph import connected_components, dijkstra logger = logging.getLogger(__name__) @@ -149,17 +148,17 @@ def simplify_network_to_380(n): return n, trafo_map -def _prepare_connection_costs_per_link(n, costs, config): +def _prepare_connection_costs_per_link(n, costs, renewable_carriers, length_factor): if n.links.empty: return {} connection_costs_per_link = {} - for tech in config["renewable"]: + for tech in renewable_carriers: if tech.startswith("offwind"): connection_costs_per_link[tech] = ( n.links.length - * config["lines"]["length_factor"] + * length_factor * ( n.links.underwater_fraction * costs.at[tech + "-connection-submarine", "capital_cost"] @@ -172,10 +171,18 @@ def _prepare_connection_costs_per_link(n, costs, config): def _compute_connection_costs_to_bus( - n, busmap, costs, config, connection_costs_per_link=None, buses=None + n, + busmap, + costs, + renewable_carriers, + length_factor, + connection_costs_per_link=None, + buses=None, ): if connection_costs_per_link is None: - connection_costs_per_link = _prepare_connection_costs_per_link(n, costs, config) + connection_costs_per_link = _prepare_connection_costs_per_link( + n, costs, renewable_carriers, length_factor + ) if buses is None: buses = busmap.index[busmap.index != busmap.values] @@ -245,11 +252,15 @@ def _aggregate_and_move_components( _adjust_capital_costs_using_connection_costs(n, connection_costs_to_bus, output) - _, generator_strategies = get_aggregation_strategies(aggregation_strategies) + generator_strategies = aggregation_strategies["generators"] carriers = set(n.generators.carrier) - set(exclude_carriers) - generators, generators_pnl = aggregategenerators( - n, busmap, carriers=carriers, custom_strategies=generator_strategies + generators, generators_pnl = aggregateoneport( + n, + busmap, + "Generator", + carriers=carriers, + custom_strategies=generator_strategies, ) replace_components(n, "Generator", generators, generators_pnl) @@ -265,7 +276,16 @@ def _aggregate_and_move_components( n.mremove(c, df.index[df.bus0.isin(buses_to_del) | df.bus1.isin(buses_to_del)]) -def simplify_links(n, costs, config, output, aggregation_strategies=dict()): +def simplify_links( + n, + costs, + renewables, + length_factor, + p_max_pu, + exclude_carriers, + output, + aggregation_strategies=dict(), +): ## Complex multi-node links are folded into end-points logger.info("Simplifying connected link components") @@ -315,7 +335,9 @@ def simplify_links(n, costs, config, output, aggregation_strategies=dict()): busmap = n.buses.index.to_series() - connection_costs_per_link = _prepare_connection_costs_per_link(n, costs, config) + connection_costs_per_link = _prepare_connection_costs_per_link( + n, costs, renewables, length_factor + ) connection_costs_to_bus = pd.DataFrame( 0.0, index=n.buses.index, columns=list(connection_costs_per_link) ) @@ -333,12 +355,17 @@ def simplify_links(n, costs, config, output, aggregation_strategies=dict()): ) busmap.loc[buses] = b[np.r_[0, m.argmin(axis=0), 1]] connection_costs_to_bus.loc[buses] += _compute_connection_costs_to_bus( - n, busmap, costs, config, connection_costs_per_link, buses + n, + busmap, + costs, + renewables, + length_factor, + connection_costs_per_link, + buses, ) all_links = [i for _, i in sum(links, [])] - p_max_pu = config["links"].get("p_max_pu", 1.0) lengths = n.links.loc[all_links, "length"] name = lengths.idxmax() + "+{}".format(len(links) - 1) params = dict( @@ -377,10 +404,6 @@ def simplify_links(n, costs, config, output, aggregation_strategies=dict()): logger.debug("Collecting all components using the busmap") - exclude_carriers = config["clustering"]["simplify_network"].get( - "exclude_carriers", [] - ) - _aggregate_and_move_components( n, busmap, @@ -392,19 +415,23 @@ def simplify_links(n, costs, config, output, aggregation_strategies=dict()): return n, busmap -def remove_stubs(n, costs, config, output, aggregation_strategies=dict()): +def remove_stubs( + n, + costs, + renewable_carriers, + length_factor, + simplify_network, + output, + aggregation_strategies=dict(), +): logger.info("Removing stubs") - across_borders = config["clustering"]["simplify_network"].get( - "remove_stubs_across_borders", True - ) + across_borders = simplify_network["remove_stubs_across_borders"] matching_attrs = [] if across_borders else ["country"] busmap = busmap_by_stubs(n, matching_attrs) - connection_costs_to_bus = _compute_connection_costs_to_bus(n, busmap, costs, config) - - exclude_carriers = config["clustering"]["simplify_network"].get( - "exclude_carriers", [] + connection_costs_to_bus = _compute_connection_costs_to_bus( + n, busmap, costs, renewable_carriers, length_factor ) _aggregate_and_move_components( @@ -413,7 +440,7 @@ def remove_stubs(n, costs, config, output, aggregation_strategies=dict()): connection_costs_to_bus, output, aggregation_strategies=aggregation_strategies, - exclude_carriers=exclude_carriers, + exclude_carriers=simplify_network["exclude_carriers"], ) return n, busmap @@ -454,45 +481,42 @@ def aggregate_to_substations(n, aggregation_strategies=dict(), buses_i=None): busmap = n.buses.index.to_series() busmap.loc[buses_i] = dist.idxmin(1) - bus_strategies, generator_strategies = get_aggregation_strategies( - aggregation_strategies - ) + line_strategies = aggregation_strategies.get("lines", dict()) + generator_strategies = aggregation_strategies.get("generators", dict()) + one_port_strategies = aggregation_strategies.get("one_ports", dict()) clustering = get_clustering_from_busmap( n, busmap, - bus_strategies=bus_strategies, aggregate_generators_weighted=True, aggregate_generators_carriers=None, aggregate_one_ports=["Load", "StorageUnit"], line_length_factor=1.0, + line_strategies=line_strategies, generator_strategies=generator_strategies, + one_port_strategies=one_port_strategies, scale_link_capital_costs=False, ) return clustering.network, busmap def cluster( - n, n_clusters, config, algorithm="hac", feature=None, aggregation_strategies=dict() + n, + n_clusters, + focus_weights, + solver_name, + algorithm="hac", + feature=None, + aggregation_strategies=dict(), ): logger.info(f"Clustering to {n_clusters} buses") - focus_weights = config.get("focus_weights", None) - - renewable_carriers = pd.Index( - [ - tech - for tech in n.generators.carrier.unique() - if tech.split("-", 2)[0] in config["renewable"] - ] - ) - clustering = clustering_for_n_clusters( n, n_clusters, custom_busmap=False, aggregation_strategies=aggregation_strategies, - solver_name=config["solving"]["solver"]["name"], + solver_name=solver_name, algorithm=algorithm, feature=feature, focus_weights=focus_weights, @@ -508,92 +532,90 @@ if __name__ == "__main__": snakemake = mock_snakemake("simplify_network", weather_year="", simpl="") configure_logging(snakemake) - n = pypsa.Network(snakemake.input.network) + params = snakemake.params + solver_name = snakemake.config["solving"]["solver"]["name"] - aggregation_strategies = snakemake.config["clustering"].get( - "aggregation_strategies", {} - ) - # translate str entries of aggregation_strategies to pd.Series functions: - aggregation_strategies = { - p: {k: getattr(pd.Series, v) for k, v in aggregation_strategies[p].items()} - for p in aggregation_strategies.keys() - } + n = pypsa.Network(snakemake.input.network) + Nyears = n.snapshot_weightings.objective.sum() / 8760 n, trafo_map = simplify_network_to_380(n) - Nyears = n.snapshot_weightings.objective.sum() / 8760 - technology_costs = load_costs( snakemake.input.tech_costs, - snakemake.config["costs"], - snakemake.config["electricity"], + params.costs, + params.max_hours, Nyears, ) n, simplify_links_map = simplify_links( - n, technology_costs, snakemake.config, snakemake.output, aggregation_strategies + n, + technology_costs, + params.renewable_carriers, + params.length_factor, + params.p_max_pu, + params.simplify_network["exclude_carriers"], + snakemake.output, + params.aggregation_strategies, ) busmaps = [trafo_map, simplify_links_map] - cluster_config = snakemake.config["clustering"]["simplify_network"] - if cluster_config.get("remove_stubs", True): + if params.simplify_network["remove_stubs"]: n, stub_map = remove_stubs( n, technology_costs, - snakemake.config, + params.renewable_carriers, + params.length_factor, + params.simplify_network, snakemake.output, - aggregation_strategies=aggregation_strategies, + aggregation_strategies=params.aggregation_strategies, ) busmaps.append(stub_map) - if cluster_config.get("to_substations", False): - n, substation_map = aggregate_to_substations(n, aggregation_strategies) + if params.simplify_network["to_substations"]: + n, substation_map = aggregate_to_substations(n, params.aggregation_strategies) busmaps.append(substation_map) # treatment of outliers (nodes without a profile for considered carrier): # all nodes that have no profile of the given carrier are being aggregated to closest neighbor - if ( - snakemake.config.get("clustering", {}) - .get("cluster_network", {}) - .get("algorithm", "hac") - == "hac" - or cluster_config.get("algorithm", "hac") == "hac" - ): - carriers = ( - cluster_config.get("feature", "solar+onwind-time").split("-")[0].split("+") - ) + if params.simplify_network["algorithm"] == "hac": + carriers = params.simplify_network["feature"].split("-")[0].split("+") for carrier in carriers: buses_i = list( set(n.buses.index) - set(n.generators.query("carrier == @carrier").bus) ) logger.info( - f"clustering preparaton (hac): aggregating {len(buses_i)} buses of type {carrier}." + f"clustering preparation (hac): aggregating {len(buses_i)} buses of type {carrier}." + ) + n, busmap_hac = aggregate_to_substations( + n, params.aggregation_strategies, buses_i ) - n, busmap_hac = aggregate_to_substations(n, aggregation_strategies, buses_i) busmaps.append(busmap_hac) if snakemake.wildcards.simpl: n, cluster_map = cluster( n, int(snakemake.wildcards.simpl), - snakemake.config, - cluster_config.get("algorithm", "hac"), - cluster_config.get("feature", None), - aggregation_strategies, + params.focus_weights, + solver_name, + params.simplify_network["algorithm"], + params.simplify_network["feature"], + params.aggregation_strategies, ) busmaps.append(cluster_map) # some entries in n.buses are not updated in previous functions, therefore can be wrong. as they are not needed # and are lost when clustering (for example with the simpl wildcard), we remove them for consistency: - buses_c = { + remove = [ "symbol", "tags", "under_construction", "substation_lv", "substation_off", - }.intersection(n.buses.columns) - n.buses = n.buses.drop(buses_c, axis=1) + "geometry", + ] + n.buses.drop(remove, axis=1, inplace=True, errors="ignore") + n.lines.drop(remove, axis=1, errors="ignore", inplace=True) update_p_nom_max(n) diff --git a/scripts/solve_network.py b/scripts/solve_network.py index 5ba93d23..d0fb85d9 100644 --- a/scripts/solve_network.py +++ b/scripts/solve_network.py @@ -33,26 +33,21 @@ import numpy as np import pandas as pd import pypsa import xarray as xr -from _helpers import ( - configure_logging, - override_component_attrs, - update_config_with_sector_opts, -) -from vresutils.benchmark import memory_logger +from _helpers import configure_logging, update_config_with_sector_opts logger = logging.getLogger(__name__) pypsa.pf.logger.setLevel(logging.WARNING) from pypsa.descriptors import get_switchable_as_dense as get_as_dense -def add_land_use_constraint(n, config): +def add_land_use_constraint(n, planning_horizons, config): if "m" in snakemake.wildcards.clusters: - _add_land_use_constraint_m(n, config) + _add_land_use_constraint_m(n, planning_horizons, config) else: - _add_land_use_constraint(n, config) + _add_land_use_constraint(n) -def _add_land_use_constraint(n, config): +def _add_land_use_constraint(n): # warning: this will miss existing offwind which is not classed AC-DC and has carrier 'offwind' for carrier in ["solar", "onwind", "offwind-ac", "offwind-dc"]: @@ -81,10 +76,10 @@ def _add_land_use_constraint(n, config): n.generators.p_nom_max.clip(lower=0, inplace=True) -def _add_land_use_constraint_m(n, config): +def _add_land_use_constraint_m(n, planning_horizons, config): # if generators clustering is lower than network clustering, land_use accounting is at generators clusters - planning_horizons = config["scenario"]["planning_horizons"] + planning_horizons = param["planning_horizons"] grouping_years = config["existing_capacities"]["grouping_years"] current_horizon = snakemake.wildcards.planning_horizons @@ -142,11 +137,18 @@ def add_co2_sequestration_limit(n, limit=200): ) -def prepare_network(n, solve_opts=None, config=None): +def prepare_network( + n, + solve_opts=None, + config=None, + foresight=None, + planning_horizons=None, + co2_sequestration_potential=None, +): if "clip_p_max_pu" in solve_opts: for df in ( n.generators_t.p_max_pu, - n.generators_t.p_min_pu, # TODO: check if this can be removed + n.generators_t.p_min_pu, n.storage_units_t.inflow, ): df.where(df > solve_opts["clip_p_max_pu"], other=0.0, inplace=True) @@ -192,11 +194,11 @@ def prepare_network(n, solve_opts=None, config=None): n.set_snapshots(n.snapshots[:nhours]) n.snapshot_weightings[:] = 8760.0 / nhours - if config["foresight"] == "myopic": - add_land_use_constraint(n, config) + if foresight == "myopic": + add_land_use_constraint(n, planning_horizons, config) if n.stores.carrier.eq("co2 stored").any(): - limit = config["sector"].get("co2_sequestration_potential", 200) + limit = co2_sequestration_potential add_co2_sequestration_limit(n, limit=limit) return n @@ -229,8 +231,7 @@ def add_CCL_constraints(n, config): p_nom = n.model["Generator-p_nom"] gens = n.generators.query("p_nom_extendable").rename_axis(index="Generator-ext") - grouper = [gens.bus.map(n.buses.country), gens.carrier] - grouper = xr.DataArray(pd.MultiIndex.from_arrays(grouper), dims=["Generator-ext"]) + grouper = pd.concat([gens.bus.map(n.buses.country), gens.carrier]) lhs = p_nom.groupby(grouper).sum().rename(bus="country") minimum = xr.DataArray(agg_p_nom_minmax["min"].dropna()).rename(dim_0="group") @@ -275,13 +276,13 @@ def add_EQ_constraints(n, o, scaling=1e-1): float_regex = "[0-9]*\.?[0-9]+" level = float(re.findall(float_regex, o)[0]) if o[-1] == "c": - ggrouper = n.generators.bus.map(n.buses.country).to_xarray() - lgrouper = n.loads.bus.map(n.buses.country).to_xarray() - sgrouper = n.storage_units.bus.map(n.buses.country).to_xarray() + ggrouper = n.generators.bus.map(n.buses.country) + lgrouper = n.loads.bus.map(n.buses.country) + sgrouper = n.storage_units.bus.map(n.buses.country) else: - ggrouper = n.generators.bus.to_xarray() - lgrouper = n.loads.bus.to_xarray() - sgrouper = n.storage_units.bus.to_xarray() + ggrouper = n.generators.bus + lgrouper = n.loads.bus + sgrouper = n.storage_units.bus load = ( n.snapshot_weightings.generators @ n.loads_t.p_set.groupby(lgrouper, axis=1).sum() @@ -295,7 +296,7 @@ def add_EQ_constraints(n, o, scaling=1e-1): p = n.model["Generator-p"] lhs_gen = ( (p * (n.snapshot_weightings.generators * scaling)) - .groupby(ggrouper) + .groupby(ggrouper.to_xarray()) .sum() .sum("snapshot") ) @@ -304,7 +305,7 @@ def add_EQ_constraints(n, o, scaling=1e-1): spillage = n.model["StorageUnit-spill"] lhs_spill = ( (spillage * (-n.snapshot_weightings.stores * scaling)) - .groupby(sgrouper) + .groupby(sgrouper.to_xarray()) .sum() .sum("snapshot") ) @@ -373,13 +374,14 @@ def add_SAFE_constraints(n, config): peakdemand = n.loads_t.p_set.sum(axis=1).max() margin = 1.0 + config["electricity"]["SAFE_reservemargin"] reserve_margin = peakdemand * margin - # TODO: do not take this from the plotting config! - conv_techs = config["plotting"]["conv_techs"] - ext_gens_i = n.generators.query("carrier in @conv_techs & p_nom_extendable").index + conventional_carriers = config["electricity"]["conventional_carriers"] + ext_gens_i = n.generators.query( + "carrier in @conventional_carriers & p_nom_extendable" + ).index p_nom = n.model["Generator-p_nom"].loc[ext_gens_i] lhs = p_nom.sum() exist_conv_caps = n.generators.query( - "~p_nom_extendable & carrier in @conv_techs" + "~p_nom_extendable & carrier in @conventional_carriers" ).p_nom.sum() rhs = reserve_margin - exist_conv_caps n.model.add_constraints(lhs >= rhs, name="safe_mintotalcap") @@ -591,16 +593,15 @@ def extra_functionality(n, snapshots): add_pipe_retrofit_constraint(n) -def solve_network(n, config, opts="", **kwargs): - set_of_options = config["solving"]["solver"]["options"] - solver_options = ( - config["solving"]["solver_options"][set_of_options] if set_of_options else {} - ) - solver_name = config["solving"]["solver"]["name"] - cf_solving = config["solving"]["options"] +def solve_network(n, config, solving, opts="", **kwargs): + set_of_options = solving["solver"]["options"] + solver_options = solving["solver_options"][set_of_options] if set_of_options else {} + solver_name = solving["solver"]["name"] + cf_solving = solving["options"] track_iterations = cf_solving.get("track_iterations", False) min_iterations = cf_solving.get("min_iterations", 4) max_iterations = cf_solving.get("max_iterations", 6) + transmission_losses = cf_solving.get("transmission_losses", 0) # add to network for extra_functionality n.config = config @@ -614,6 +615,7 @@ def solve_network(n, config, opts="", **kwargs): if skip_iterations: status, condition = n.optimize( solver_name=solver_name, + transmission_losses=transmission_losses, extra_functionality=extra_functionality, **solver_options, **kwargs, @@ -624,6 +626,7 @@ def solve_network(n, config, opts="", **kwargs): track_iterations=track_iterations, min_iterations=min_iterations, max_iterations=max_iterations, + transmission_losses=transmission_losses, extra_functionality=extra_functionality, **solver_options, **kwargs, @@ -664,27 +667,28 @@ if __name__ == "__main__": if "sector_opts" in snakemake.wildcards.keys(): opts += "-" + snakemake.wildcards.sector_opts opts = [o for o in opts.split("-") if o != ""] - solve_opts = snakemake.config["solving"]["options"] + solve_opts = snakemake.params.solving["options"] np.random.seed(solve_opts.get("seed", 123)) - fn = getattr(snakemake.log, "memory", None) - with memory_logger(filename=fn, interval=30.0) as mem: - if "overrides" in snakemake.input.keys(): - overrides = override_component_attrs(snakemake.input.overrides) - n = pypsa.Network( - snakemake.input.network, override_component_attrs=overrides - ) - else: - n = pypsa.Network(snakemake.input.network) + n = pypsa.Network(snakemake.input.network) - n = prepare_network(n, solve_opts, config=snakemake.config) + n = prepare_network( + n, + solve_opts, + config=snakemake.config, + foresight=snakemake.params.foresight, + planning_horizons=snakemake.params.planning_horizons, + co2_sequestration_potential=snakemake.params["co2_sequestration_potential"], + ) - n = solve_network( - n, config=snakemake.config, opts=opts, log_fn=snakemake.log.solver - ) + n = solve_network( + n, + config=snakemake.config, + solving=snakemake.params.solving, + opts=opts, + log_fn=snakemake.log.solver, + ) - n.meta = dict(snakemake.config, **dict(wildcards=dict(snakemake.wildcards))) - n.export_to_netcdf(snakemake.output[0]) - - logger.info("Maximum memory usage: {}".format(mem.mem_usage)) + n.meta = dict(snakemake.config, **dict(wildcards=dict(snakemake.wildcards))) + n.export_to_netcdf(snakemake.output[0]) diff --git a/scripts/solve_operations_network.py b/scripts/solve_operations_network.py index 962c62c8..8a9cc30d 100644 --- a/scripts/solve_operations_network.py +++ b/scripts/solve_operations_network.py @@ -11,13 +11,8 @@ import logging import numpy as np import pypsa -from _helpers import ( - configure_logging, - override_component_attrs, - update_config_with_sector_opts, -) +from _helpers import configure_logging, update_config_with_sector_opts from solve_network import prepare_network, solve_network -from vresutils.benchmark import memory_logger logger = logging.getLogger(__name__) @@ -43,27 +38,17 @@ if __name__ == "__main__": opts = (snakemake.wildcards.opts + "-" + snakemake.wildcards.sector_opts).split("-") opts = [o for o in opts if o != ""] - solve_opts = snakemake.config["solving"]["options"] + solve_opts = snakemake.params.options np.random.seed(solve_opts.get("seed", 123)) - fn = getattr(snakemake.log, "memory", None) - with memory_logger(filename=fn, interval=30.0) as mem: - if "overrides" in snakemake.input: - overrides = override_component_attrs(snakemake.input.overrides) - n = pypsa.Network( - snakemake.input.network, override_component_attrs=overrides - ) - else: - n = pypsa.Network(snakemake.input.network) + n = pypsa.Network(snakemake.input.network) - n.optimize.fix_optimal_capacities() - n = prepare_network(n, solve_opts, config=snakemake.config) - n = solve_network( - n, config=snakemake.config, opts=opts, log_fn=snakemake.log.solver - ) + n.optimize.fix_optimal_capacities() + n = prepare_network(n, solve_opts, config=snakemake.config) + n = solve_network( + n, config=snakemake.config, opts=opts, log_fn=snakemake.log.solver + ) - n.meta = dict(snakemake.config, **dict(wildcards=dict(snakemake.wildcards))) - n.export_to_netcdf(snakemake.output[0]) - - logger.info("Maximum memory usage: {}".format(mem.mem_usage)) + n.meta = dict(snakemake.config, **dict(wildcards=dict(snakemake.wildcards))) + n.export_to_netcdf(snakemake.output[0])