diff --git a/config/config.personal.yaml b/config/config.personal.yaml deleted file mode 100644 index b86b56f7..00000000 --- a/config/config.personal.yaml +++ /dev/null @@ -1,1070 +0,0 @@ -# SPDX-FileCopyrightText: : 2017-2023 The PyPSA-Eur Authors -# -# SPDX-License-Identifier: CC0-1.0 - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#top-level-configuration -version: 0.9.0 -tutorial: false - -logging: - level: INFO - format: '%(levelname)s:%(name)s:%(message)s' - -private: - keys: - entsoe_api: - -remote: - ssh: "z1" - path: "SCRATCH/projects/pypsa-eur" - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#run -run: - name: "" - disable_progressbar: false - shared_resources: false - shared_cutouts: true - -# 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: - simpl: - - '' - ll: - - vopt - clusters: - - 37 - # - 150 - opts: - - '' - sector_opts: - # - Co2L0-3H-T-H-B-I-A - # - Co2L0-2190SEG-T-H-B-I-A - # - Co2L0-25H-T-H-B-I-A - - Co2L0-97H-T-H-B-I-A - planning_horizons: - # - 2020 - - 2030 - # - 2040 - # - 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' - resolution: false - segmentation: false - #representative: false - -# 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 - retrieve_cost_data: true - build_cutout: false - retrieve_irena: false - retrieve_cutout: true - build_natura_raster: false - retrieve_natura_raster: true - custom_busmap: false - - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#co2-budget -co2_budget: - 2020: 0.701 - 2025: 0.524 - 2030: 0.297 - 2035: 0.150 - 2040: 0.071 - 2045: 0.032 - 2050: 0.000 - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#electricity -electricity: - voltages: [220., 300., 380., 500., 750.] - gaslimit_enable: false - gaslimit: false - co2limit_enable: false - co2limit: 7.75e+7 - co2base: 1.487e+9 - agg_p_nom_limits: data/agg_p_nom_minmax.csv - - operational_reserve: - activate: false - epsilon_load: 0.02 - epsilon_vres: 0.02 - contingency: 4000 - - max_hours: - battery: 6 - H2: 168 - - extendable_carriers: - Generator: [solar, onwind, offwind-ac, offwind-dc, OCGT] - StorageUnit: [] # battery, H2 - Store: [battery, H2] - Link: [] # H2 pipeline - - powerplants_filter: (DateOut >= 2022 or DateOut != DateOut) - custom_powerplants: false - everywhere_powerplants: [nuclear, oil, OCGT, CCGT, coal, lignite, geothermal, biomass] - - conventional_carriers: [nuclear, oil, OCGT, CCGT, coal, lignite, geothermal, biomass] - renewable_carriers: [solar, onwind, offwind-ac, offwind-dc, hydro] - - estimate_renewable_capacities: - enable: true - from_opsd: true - year: 2020 - expansion_limit: false - technology_mapping: - Offshore: [offwind-ac, offwind-dc] - Onshore: [onwind] - PV: [solar] - - autarky: - enable: false - by_country: false - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#atlite -atlite: - default_cutout: europe-2013-era5 - nprocesses: 4 - show_progress: false - cutouts: - # use 'base' to determine geographical bounds and time span from config - # base: - # module: era5 - europe-2013-era5: - module: era5 # in priority order - x: [-12., 42.] - y: [33., 72] - dx: 0.3 - dy: 0.3 - time: ['2013', '2013'] - europe-2013-sarah: - module: [sarah, era5] # in priority order - x: [-12., 42.] - y: [33., 65] - dx: 0.2 - dy: 0.2 - time: ['2013', '2013'] - sarah_interpolate: false - 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 - add_cutout_windspeed: true - capacity_per_sqkm: 3 - # correction_factor: 0.93 - corine: - 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] - luisa: false - # grid_codes: [1111, 1121, 1122, 1123, 1130, 1210, 1221, 1222, 1230, 1241, 1242] - # distance: 1000 - # distance_grid_codes: [1111, 1121, 1122, 1123, 1130, 1210, 1221, 1222, 1230, 1241, 1242] - natura: true - excluder_resolution: 100 - clip_p_max_pu: 1.e-2 - offwind-ac: - cutout: europe-2013-era5 - resource: - method: wind - turbine: NREL_ReferenceTurbine_2020ATB_5.5MW - add_cutout_windspeed: true - capacity_per_sqkm: 2 - correction_factor: 0.8855 - corine: [44, 255] - luisa: false # [0, 5230] - natura: true - ship_threshold: 400 - max_depth: 50 - max_shore_distance: 30000 - excluder_resolution: 200 - clip_p_max_pu: 1.e-2 - offwind-dc: - cutout: europe-2013-era5 - resource: - method: wind - turbine: NREL_ReferenceTurbine_2020ATB_5.5MW - add_cutout_windspeed: true - capacity_per_sqkm: 2 - correction_factor: 0.8855 - corine: [44, 255] - luisa: false # [0, 5230] - natura: true - ship_threshold: 400 - max_depth: 50 - min_shore_distance: 30000 - excluder_resolution: 200 - clip_p_max_pu: 1.e-2 - solar: - cutout: europe-2013-sarah - resource: - method: pv - panel: CSi - orientation: - slope: 35. - azimuth: 180. - capacity_per_sqkm: 5.1 - # 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] - luisa: false # [1111, 1121, 1122, 1123, 1130, 1210, 1221, 1222, 1230, 1241, 1242, 1310, 1320, 1330, 1410, 1421, 1422, 2110, 2120, 2130, 2210, 2220, 2230, 2310, 2410, 2420, 3210, 3320, 3330] - natura: true - excluder_resolution: 100 - clip_p_max_pu: 1.e-2 - hydro: - cutout: europe-2013-era5 - carriers: [ror, PHS, hydro] - PHS_max_hours: 6 - hydro_max_hours: "energy_capacity_totals_by_country" # one of energy_capacity_totals_by_country, estimate_by_large_installations or a float - flatten_dispatch: false - flatten_dispatch_buffer: 0.2 - clip_min_inflow: 1.0 - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#conventional -conventional: - unit_commitment: false - dynamic_fuel_price: false - 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" - 300.: "Al/St 240/40 3-bundle 300.0" - 380.: "Al/St 240/40 4-bundle 380.0" - 500.: "Al/St 240/40 4-bundle 380.0" - 750.: "Al/St 560/50 4-bundle 750.0" - s_max_pu: 0.7 - s_nom_max: .inf - max_extension: 20000 #MW - length_factor: 1.25 - reconnect_crimea: true - under_construction: 'zero' # 'zero': set capacity to zero, 'remove': remove, 'keep': with full capacity - dynamic_line_rating: - activate: false - cutout: europe-2013-era5 - correction_factor: 0.95 - max_voltage_difference: false - max_line_rating: false - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#links -links: - p_max_pu: 1.0 - p_nom_max: .inf - max_extension: 30000 #MW - 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-load in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#load -load: - power_statistics: true - interpolate_limit: 3 - time_shift_for_large_gaps: 1w - manual_adjustments: true # false - scaling_factor: 1.0 - -# 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 -# in PyPSA-Eur-Sec -pypsa_eur: - Bus: - - AC - Link: - - DC - Generator: - - onwind - - offwind-ac - - offwind-dc - - solar - - ror - - nuclear - StorageUnit: - - PHS - - 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 - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#biomass -biomass: - year: 2030 - scenario: ENS_Med - classes: - solid biomass: - - Agricultural waste - - Fuelwood residues - - Secondary Forestry residues - woodchips - - Sawdust - - Residues from landscape care - - Municipal waste - not included: - - Sugar from sugar beet - - Rape seed - - "Sunflower, soya seed " - - Bioethanol barley, wheat, grain maize, oats, other cereals and rye - - Miscanthus, switchgrass, RCG - - Willow - - Poplar - - FuelwoodRW - - C&P_RW - biogas: - - 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. - -# 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 - threshold_capacity: 10 - conventional_carriers: - - lignite - - coal - - oil - - uranium - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#sector -sector: - district_heating: - potential: 0.6 - progress: - 2020: 0.0 - 2025: 0.15 - 2030: 0.3 - 2035: 0.45 - 2040: 0.6 - 2045: 0.8 - 2050: 1.0 - district_heating_loss: 0.15 - cluster_heat_buses: true - 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 - ICE_upper_degree_factor: 1.6 - EV_lower_degree_factor: 0.98 - EV_upper_degree_factor: 0.63 - 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 - land_transport_fuel_cell_share: - 2020: 0 - 2025: 0 - 2030: 0 - 2035: 0 - 2040: 0 - 2045: 0 - 2050: 0 - land_transport_electric_share: - 2020: 0 - 2025: 0.15 - 2030: 0.3 - 2035: 0.45 - 2040: 0.7 - 2045: 0.85 - 2050: 1 - land_transport_ice_share: - 2020: 1 - 2025: 0.85 - 2030: 0.7 - 2035: 0.55 - 2040: 0.3 - 2045: 0.15 - 2050: 0 - transport_fuel_cell_efficiency: 0.5 - transport_internal_combustion_efficiency: 0.3 - agriculture_machinery_electric_share: 0 - agriculture_machinery_oil_share: 1 - 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 - 2025: 0 - 2030: 0 - 2035: 0 - 2040: 0 - 2045: 0 - 2050: 0 - shipping_methanol_share: - 2020: 0 - 2025: 0.15 - 2030: 0.3 - 2035: 0.5 - 2040: 0.7 - 2045: 0.85 - 2050: 1 - shipping_oil_share: - 2020: 1 - 2025: 0.85 - 2030: 0.7 - 2035: 0.5 - 2040: 0.3 - 2045: 0.15 - 2050: 0 - 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 - 2035: 0.11 - 2040: 0.16 - 2045: 0.21 - 2050: 0.29 - 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: - decentral: 3 - central: 180 - boilers: true - resistive_heaters: true - oil_boilers: false - biomass_boiler: true - chp: true - micro_chp: false - solar_thermal: false - solar_cf_correction: 0.788457 # = >>> 1/1.2683 - marginal_cost_storage: 0. #1e-4 - methanation: true - coal_cc: false - dac: true - co2_vent: false - central_heat_vent: false - allam_cycle: false - hydrogen_fuel_cell: true - hydrogen_turbine: false - SMR: true - SMR_cc: true - regional_methanol_demand: false - regional_oil_demand: false - regional_co2_sequestration_potential: - enable: false - attribute: 'conservative estimate Mt' - include_onshore: false - min_size: 3 - max_size: 25 - years_of_storage: 25 - co2_sequestration_potential: 200 - co2_sequestration_cost: 10 - co2_sequestration_lifetime: 50 - co2_spatial: false - co2network: false - co2_network_cost_factor: 1 - 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 - min_part_load_fischer_tropsch: 0.7 - min_part_load_methanolisation: 0.3 - min_part_load_methanation: 0.3 - use_fischer_tropsch_waste_heat: true - use_haber_bosch_waste_heat: true - use_methanolisation_waste_heat: true - use_methanation_waste_heat: true - use_fuel_cell_waste_heat: true - use_electrolysis_waste_heat: true - electricity_distribution_grid: true - electricity_distribution_grid_cost_factor: 1.0 - electricity_grid_connection: true - transmission_efficiency: - DC: - efficiency_static: 0.98 - efficiency_per_1000km: 0.977 - H2 pipeline: - efficiency_per_1000km: 1 # 0.979 - compression_per_1000km: 0.019 - gas pipeline: - efficiency_per_1000km: 1 #0.977 - compression_per_1000km: 0.01 - H2_network: true - gas_network: false - 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 - biomass_spatial: false - biomass_transport: false - biogas_upgrading_cc: false - conventional_generation: - OCGT: gas - biomass_to_liquid: false - biosng: false - limit_max_growth: - enable: false - # allowing 30% larger than max historic growth - factor: 1.3 - max_growth: # unit GW - onwind: 16 # onshore max grow so far 16 GW in Europe https://www.iea.org/reports/renewables-2020/wind - solar: 28 # solar max grow so far 28 GW in Europe https://www.iea.org/reports/renewables-2020/solar-pv - offwind-ac: 35 # offshore max grow so far 3.5 GW in Europe https://windeurope.org/about-wind/statistics/offshore/european-offshore-wind-industry-key-trends-statistics-2019/ - offwind-dc: 35 - max_relative_growth: - onwind: 3 - solar: 3 - offwind-ac: 3 - offwind-dc: 3 - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#industry -industry: - St_primary_fraction: - 2020: 0.6 - 2025: 0.55 - 2030: 0.5 - 2035: 0.45 - 2040: 0.4 - 2045: 0.35 - 2050: 0.3 - DRI_fraction: - 2020: 0 - 2025: 0 - 2030: 0.05 - 2035: 0.2 - 2040: 0.4 - 2045: 0.7 - 2050: 1 - H2_DRI: 1.7 - elec_DRI: 0.322 - Al_primary_fraction: - 2020: 0.4 - 2025: 0.375 - 2030: 0.35 - 2035: 0.325 - 2040: 0.3 - 2045: 0.25 - 2050: 0.2 - 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: 5.93 - MWh_elec_per_tNH3_electrolysis: 0.2473 - MWh_NH3_per_MWh_H2_cracker: 1.46 # https://github.com/euronion/trace/blob/44a5ff8401762edbef80eff9cfe5a47c8d3c8be4/data/efficiencies.csv - 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 - - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#costs -costs: - year: 2030 - version: v0.6.0 - rooftop_share: 0.14 # based on the potentials, assuming (0.1 kW/m2 and 10 m2/person) - social_discountrate: 0.02 - fill_values: - FOM: 0 - VOM: 0 - efficiency: 1 - fuel: 0 - investment: 0 - lifetime: 25 - "CO2 intensity": 0 - "discount rate": 0.07 - # Marginal and capital costs can be overwritten - # capital_cost: - # onwind: 500 - marginal_cost: - solar: 0.01 - onwind: 0.015 - offwind: 0.015 - hydro: 0. - H2: 0. - electrolysis: 0. - fuel cell: 0. - battery: 0. - battery inverter: 0. - emission_prices: - enable: false - co2: 0. - co2_monthly_prices: false - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#clustering -clustering: - focus_weights: false - simplify_network: - to_substations: false - algorithm: kmeans # choose from: [hac, kmeans] - feature: solar+onwind-time - exclude_carriers: [] - remove_stubs: true - remove_stubs_across_borders: true - cluster_network: - algorithm: kmeans - feature: solar+onwind-time - exclude_carriers: [] - consider_efficiency_classes: false - aggregation_strategies: - generators: - committable: any - ramp_limit_up: max - ramp_limit_down: max - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#solving -solving: - #tmpdir: "path/to/tmp" - options: - clip_p_max_pu: 1.e-2 - load_shedding: false - noisy_costs: true - skip_iterations: true - rolling_horizon: false - seed: 123 - custom_extra_functionality: "../data/custom_extra_functionality.py" - # options that go into the optimize function - track_iterations: false - min_iterations: 4 - max_iterations: 6 - transmission_losses: 2 - linearized_unit_commitment: true - horizon: 365 - - constraints: - CCL: false - EQ: false - BAU: false - SAFE: false - - solver: - name: copt - options: copt-default - - solver_options: - highs-default: - # refer to https://ergo-code.github.io/HiGHS/options/definitions.html#solver - threads: 4 - solver: "ipm" - run_crossover: "off" - small_matrix_value: 1e-6 - large_matrix_value: 1e9 - primal_feasibility_tolerance: 1e-5 - dual_feasibility_tolerance: 1e-5 - ipm_optimality_tolerance: 1e-4 - parallel: "on" - random_seed: 123 - gurobi-default: - threads: 8 - method: 2 # barrier - crossover: 0 - BarConvTol: 1.e-6 - Seed: 123 - # AggFill: 0 - # PreDual: 2 - # GURO_PAR_BARDENSETHRESH: 200 - gurobi-numeric-focus: - name: gurobi - NumericFocus: 3 # Favour numeric stability over speed - method: 2 # barrier - crossover: 0 # do not use crossover - BarHomogeneous: 1 # Use homogeneous barrier if standard does not converge - BarConvTol: 1.e-5 - FeasibilityTol: 1.e-4 - OptimalityTol: 1.e-4 - ObjScale: -0.5 - threads: 8 - Seed: 123 - gurobi-fallback: # Use gurobi defaults - name: gurobi - crossover: 0 - method: 2 # barrier - BarHomogeneous: 1 # Use homogeneous barrier if standard does not converge - BarConvTol: 1.e-5 - FeasibilityTol: 1.e-5 - OptimalityTol: 1.e-5 - Seed: 123 - threads: 8 - cplex-default: - threads: 4 - lpmethod: 4 # barrier - solutiontype: 2 # non basic solution, ie no crossover - barrier.convergetol: 1.e-5 - feasopt.tolerance: 1.e-6 - copt-vanilla: - Threads: 8 - copt-default: - Threads: 8 - LpMethod: 2 - Scaling: 1 - Presolve: 3 - Crossover: 0 - cbc-default: {} # Used in CI - glpk-default: {} # Used in CI - - mem: 80000 #memory in MB; 20 GB enough for 50+B+I+H2; 100 GB for 181+B+I+H2 - walltime: "10:00:00" - -# docs in https://pypsa-eur.readthedocs.io/en/latest/configuration.html#plotting -plotting: - map: - boundaries: [-11, 30, 34, 71] - color_geomap: - ocean: white - land: white - eu_node_location: - x: -5.5 - y: 46. - costs_max: 1000 - costs_threshold: 1 - energy_max: 20000 - energy_min: -20000 - energy_threshold: 50. - - nice_names: - OCGT: "Open-Cycle Gas" - CCGT: "Combined-Cycle Gas" - offwind-ac: "Offshore Wind (AC)" - offwind-dc: "Offshore Wind (DC)" - onwind: "Onshore Wind" - solar: "Solar" - PHS: "Pumped Hydro Storage" - hydro: "Reservoir & Dam" - battery: "Battery Storage" - H2: "Hydrogen Storage" - lines: "Transmission Lines" - ror: "Run of River" - load: "Load Shedding" - ac: "AC" - dc: "DC" - - tech_colors: - # wind - onwind: "#235ebc" - onshore wind: "#235ebc" - offwind: "#6895dd" - offshore wind: "#6895dd" - offwind-ac: "#6895dd" - offshore wind (AC): "#6895dd" - offshore wind ac: "#6895dd" - offwind-dc: "#74c6f2" - offshore wind (DC): "#74c6f2" - offshore wind dc: "#74c6f2" - # water - hydro: '#298c81' - hydro reservoir: '#298c81' - ror: '#3dbfb0' - run of river: '#3dbfb0' - hydroelectricity: '#298c81' - PHS: '#51dbcc' - hydro+PHS: "#08ad97" - wave: '#a7d4cf' - # solar - 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' - OCGT marginal: '#e0986c' - OCGT-heat: '#e0986c' - 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' - biogas to gas CC: '#e51245' - CCGT: '#a85522' - CCGT marginal: '#a85522' - allam: '#B98F76' - gas for industry co2 to atmosphere: '#692e0a' - gas for industry co2 to stored: '#8a3400' - gas for industry: '#853403' - gas for industry CC: '#692e0a' - gas pipeline: '#ebbca0' - gas pipeline new: '#a87c62' - # oil - oil: '#c9c9c9' - imported oil: '#a3a3a3' - 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' - # nuclear - Nuclear: '#ff8c00' - Nuclear marginal: '#ff8c00' - nuclear: '#ff8c00' - uranium: '#ff8c00' - # coal - Coal: '#545454' - coal: '#545454' - Coal marginal: '#545454' - coal for industry: '#343434' - solid: '#545454' - Lignite: '#826837' - lignite: '#826837' - Lignite marginal: '#826837' - # biomass - biogas: '#e3d37d' - biomass: '#baa741' - solid biomass: '#baa741' - solid biomass transport: '#baa741' - solid biomass for industry: '#7a6d26' - 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' - electricity: '#110d63' - industry electricity: '#2d2a66' - industry new electricity: '#2d2a66' - agriculture electricity: '#494778' - # 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: '#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 vent: '#aa3344' - heat demand: '#cc1f1f' - rural heat: '#ff5c5c' - residential rural heat: '#ff7c7c' - services rural heat: '#ff9c9c' - central heat: '#cc1f1f' - urban central heat: '#d15959' - urban central heat vent: '#a74747' - 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' - # heat supply - 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 - H2 for industry: "#f073da" - H2 for shipping: "#ebaee0" - H2: '#bf13a0' - hydrogen: '#bf13a0' - retrofitted H2 boiler: '#e5a0d9' - SMR: '#870c71' - 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' - ammonia store: '#00ace0' - ammonia cracker: '#87d0e6' - Haber-Bosch: '#076987' - # syngas - Sabatier: '#9850ad' - methanation: '#c44ce6' - methane: '#c44ce6' - # synfuels - Fischer-Tropsch: '#25c49a' - liquid: '#25c49a' - kerosene for aviation: '#a1ffe6' - naphtha for industry: '#57ebc4' - methanolisation: '#83d6d5' - methanol: '#468c8b' - shipping methanol: '#468c8b' - # co2 - CC: '#f29dae' - CCS: '#f29dae' - CO2 sequestration: '#f29dae' - DAC: '#ff5270' - co2 stored: '#f2385a' - co2 sequestered: '#f2682f' - co2: '#f29dae' - co2 vent: '#ffd4dc' - CO2 pipeline: '#f5627f' - # emissions - process emissions CC: '#000000' - process emissions: '#222222' - process emissions to stored: '#444444' - process emissions to atmosphere: '#888888' - oil emissions: '#aaaaaa' - shipping oil emissions: "#555555" - shipping methanol emissions: '#666666' - land transport oil emissions: '#777777' - agriculture machinery oil emissions: '#333333' - # other - shipping: '#03a2ff' - power-to-heat: '#2fb537' - power-to-gas: '#c44ce6' - power-to-H2: '#ff29d9' - power-to-liquid: '#25c49a' - gas-to-power/heat: '#ee8340' - 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" - load: "#dd2e23"