from os.path import exists
from shutil import copyfile
from snakemake.remote.HTTP import RemoteProvider as HTTPRemoteProvider
HTTP = HTTPRemoteProvider()
if not exists("config.yaml"):
copyfile("config.default.yaml", "config.yaml")
configfile: "config.yaml"
wildcard_constraints:
lv="[a-z0-9\.]+",
simpl="[a-zA-Z0-9]*",
clusters="[0-9]+m?",
opts="[-+a-zA-Z0-9]*",
sector_opts="[-+a-zA-Z0-9\.\s]*"
SDIR = config['summary_dir'] + '/' + config['run']
RDIR = config['results_dir'] + config['run']
CDIR = config['costs_dir']
subworkflow pypsaeur:
workdir: "../pypsa-eur"
snakefile: "../pypsa-eur/Snakefile"
configfile: "../pypsa-eur/config.yaml"
rule all:
input: SDIR + '/graphs/costs.pdf'
rule solve_all_networks:
input:
expand(RDIR + "/postnetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc",
**config['scenario'])
rule prepare_sector_networks:
input:
expand(RDIR + "/prenetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc",
**config['scenario'])
datafiles = [
"data/eea/UNFCCC_v23.csv",
"data/switzerland-sfoe/switzerland-new_format.csv",
"data/nuts/NUTS_RG_10M_2013_4326_LEVL_2.geojson",
"data/myb1-2017-nitro.xls",
"data/Industrial_Database.csv",
"data/emobility/KFZ__count",
"data/emobility/Pkw__count",
"data/h2_salt_caverns_GWh_per_sqkm.geojson",
directory("data/eurostat-energy_balances-june_2016_edition"),
directory("data/eurostat-energy_balances-may_2018_edition"),
directory("data/jrc-idees-2015"),
]
if config.get('retrieve_sector_databundle', True):
rule retrieve_sector_databundle:
output: *datafiles
log: "logs/retrieve_sector_databundle.log"
script: 'scripts/retrieve_sector_databundle.py'
rule build_population_layouts:
input:
nuts3_shapes=pypsaeur('resources/nuts3_shapes.geojson'),
urban_percent="data/urban_percent.csv"
output:
pop_layout_total="resources/pop_layout_total.nc",
pop_layout_urban="resources/pop_layout_urban.nc",
pop_layout_rural="resources/pop_layout_rural.nc"
resources: mem_mb=20000
benchmark: "benchmarks/build_population_layouts"
threads: 8
script: "scripts/build_population_layouts.py"
rule build_clustered_population_layouts:
input:
pop_layout_total="resources/pop_layout_total.nc",
pop_layout_urban="resources/pop_layout_urban.nc",
pop_layout_rural="resources/pop_layout_rural.nc",
regions_onshore=pypsaeur('resources/regions_onshore_elec_s{simpl}_{clusters}.geojson')
output:
clustered_pop_layout="resources/pop_layout_elec_s{simpl}_{clusters}.csv"
resources: mem_mb=10000
benchmark: "benchmarks/build_clustered_population_layouts/s{simpl}_{clusters}"
script: "scripts/build_clustered_population_layouts.py"
rule build_simplified_population_layouts:
input:
pop_layout_total="resources/pop_layout_total.nc",
pop_layout_urban="resources/pop_layout_urban.nc",
pop_layout_rural="resources/pop_layout_rural.nc",
regions_onshore=pypsaeur('resources/regions_onshore_elec_s{simpl}.geojson')
output:
clustered_pop_layout="resources/pop_layout_elec_s{simpl}.csv"
resources: mem_mb=10000
benchmark: "benchmarks/build_clustered_population_layouts/s{simpl}"
script: "scripts/build_clustered_population_layouts.py"
if config["sector"]["gas_network"] or config["sector"]["H2_retrofit"]:
datafiles = [
"IGGIELGN_LNGs.geojson",
"IGGIELGN_BorderPoints.geojson",
"IGGIELGN_Productions.geojson",
"IGGIELGN_PipeSegments.geojson",
]
rule retrieve_gas_infrastructure_data:
output: expand("data/gas_network/scigrid-gas/data/{files}", files=datafiles)
script: 'scripts/retrieve_gas_infrastructure_data.py'
rule build_gas_network:
input:
gas_network="data/gas_network/scigrid-gas/data/IGGIELGN_PipeSegments.geojson"
output:
cleaned_gas_network="resources/gas_network.csv"
resources: mem_mb=4000
script: "scripts/build_gas_network.py"
rule build_gas_input_locations:
input:
lng="data/gas_network/scigrid-gas/data/IGGIELGN_LNGs.geojson",
entry="data/gas_network/scigrid-gas/data/IGGIELGN_BorderPoints.geojson",
production="data/gas_network/scigrid-gas/data/IGGIELGN_Productions.geojson",
planned_lng="data/gas_network/planned_LNGs.csv",
regions_onshore=pypsaeur("resources/regions_onshore_elec_s{simpl}_{clusters}.geojson"),
regions_offshore=pypsaeur('resources/regions_offshore_elec_s{simpl}_{clusters}.geojson')
output:
gas_input_nodes="resources/gas_input_locations_s{simpl}_{clusters}.geojson",
gas_input_nodes_simplified="resources/gas_input_locations_s{simpl}_{clusters}_simplified.csv"
resources: mem_mb=2000,
script: "scripts/build_gas_input_locations.py"
rule cluster_gas_network:
input:
cleaned_gas_network="resources/gas_network.csv",
regions_onshore=pypsaeur("resources/regions_onshore_elec_s{simpl}_{clusters}.geojson"),
regions_offshore=pypsaeur("resources/regions_offshore_elec_s{simpl}_{clusters}.geojson")
output:
clustered_gas_network="resources/gas_network_elec_s{simpl}_{clusters}.csv"
resources: mem_mb=4000
script: "scripts/cluster_gas_network.py"
gas_infrastructure = {**rules.cluster_gas_network.output, **rules.build_gas_input_locations.output}
else:
gas_infrastructure = {}
rule build_heat_demands:
input:
pop_layout_total="resources/pop_layout_total.nc",
pop_layout_urban="resources/pop_layout_urban.nc",
pop_layout_rural="resources/pop_layout_rural.nc",
regions_onshore=pypsaeur("resources/regions_onshore_elec_s{simpl}_{clusters}.geojson")
output:
heat_demand_urban="resources/heat_demand_urban_elec_s{simpl}_{clusters}.nc",
heat_demand_rural="resources/heat_demand_rural_elec_s{simpl}_{clusters}.nc",
heat_demand_total="resources/heat_demand_total_elec_s{simpl}_{clusters}.nc"
resources: mem_mb=20000
benchmark: "benchmarks/build_heat_demands/s{simpl}_{clusters}"
script: "scripts/build_heat_demand.py"
rule build_temperature_profiles:
input:
pop_layout_total="resources/pop_layout_total.nc",
pop_layout_urban="resources/pop_layout_urban.nc",
pop_layout_rural="resources/pop_layout_rural.nc",
regions_onshore=pypsaeur("resources/regions_onshore_elec_s{simpl}_{clusters}.geojson")
output:
temp_soil_total="resources/temp_soil_total_elec_s{simpl}_{clusters}.nc",
temp_soil_rural="resources/temp_soil_rural_elec_s{simpl}_{clusters}.nc",
temp_soil_urban="resources/temp_soil_urban_elec_s{simpl}_{clusters}.nc",
temp_air_total="resources/temp_air_total_elec_s{simpl}_{clusters}.nc",
temp_air_rural="resources/temp_air_rural_elec_s{simpl}_{clusters}.nc",
temp_air_urban="resources/temp_air_urban_elec_s{simpl}_{clusters}.nc"
resources: mem_mb=20000
benchmark: "benchmarks/build_temperature_profiles/s{simpl}_{clusters}"
script: "scripts/build_temperature_profiles.py"
rule build_cop_profiles:
input:
temp_soil_total="resources/temp_soil_total_elec_s{simpl}_{clusters}.nc",
temp_soil_rural="resources/temp_soil_rural_elec_s{simpl}_{clusters}.nc",
temp_soil_urban="resources/temp_soil_urban_elec_s{simpl}_{clusters}.nc",
temp_air_total="resources/temp_air_total_elec_s{simpl}_{clusters}.nc",
temp_air_rural="resources/temp_air_rural_elec_s{simpl}_{clusters}.nc",
temp_air_urban="resources/temp_air_urban_elec_s{simpl}_{clusters}.nc"
output:
cop_soil_total="resources/cop_soil_total_elec_s{simpl}_{clusters}.nc",
cop_soil_rural="resources/cop_soil_rural_elec_s{simpl}_{clusters}.nc",
cop_soil_urban="resources/cop_soil_urban_elec_s{simpl}_{clusters}.nc",
cop_air_total="resources/cop_air_total_elec_s{simpl}_{clusters}.nc",
cop_air_rural="resources/cop_air_rural_elec_s{simpl}_{clusters}.nc",
cop_air_urban="resources/cop_air_urban_elec_s{simpl}_{clusters}.nc"
resources: mem_mb=20000
benchmark: "benchmarks/build_cop_profiles/s{simpl}_{clusters}"
script: "scripts/build_cop_profiles.py"
rule build_solar_thermal_profiles:
input:
pop_layout_total="resources/pop_layout_total.nc",
pop_layout_urban="resources/pop_layout_urban.nc",
pop_layout_rural="resources/pop_layout_rural.nc",
regions_onshore=pypsaeur("resources/regions_onshore_elec_s{simpl}_{clusters}.geojson")
output:
solar_thermal_total="resources/solar_thermal_total_elec_s{simpl}_{clusters}.nc",
solar_thermal_urban="resources/solar_thermal_urban_elec_s{simpl}_{clusters}.nc",
solar_thermal_rural="resources/solar_thermal_rural_elec_s{simpl}_{clusters}.nc"
resources: mem_mb=20000
benchmark: "benchmarks/build_solar_thermal_profiles/s{simpl}_{clusters}"
script: "scripts/build_solar_thermal_profiles.py"
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"
rule build_energy_totals:
input:
nuts3_shapes=pypsaeur('resources/nuts3_shapes.geojson'),
co2="data/eea/UNFCCC_v23.csv",
swiss="data/switzerland-sfoe/switzerland-new_format.csv",
idees="data/jrc-idees-2015",
district_heat_share='data/district_heat_share.csv',
eurostat=input_eurostat
output:
energy_name='resources/energy_totals.csv',
co2_name='resources/co2_totals.csv',
transport_name='resources/transport_data.csv'
threads: 16
resources: mem_mb=10000
benchmark: "benchmarks/build_energy_totals"
script: 'scripts/build_energy_totals.py'
rule build_biomass_potentials:
input:
enspreso_biomass=HTTP.remote("https://cidportal.jrc.ec.europa.eu/ftp/jrc-opendata/ENSPRESO/ENSPRESO_BIOMASS.xlsx", keep_local=True),
nuts2="data/nuts/NUTS_RG_10M_2013_4326_LEVL_2.geojson", # https://gisco-services.ec.europa.eu/distribution/v2/nuts/download/#nuts21
regions_onshore=pypsaeur("resources/regions_onshore_elec_s{simpl}_{clusters}.geojson"),
nuts3_population="../pypsa-eur/data/bundle/nama_10r_3popgdp.tsv.gz",
swiss_cantons="../pypsa-eur/data/bundle/ch_cantons.csv",
swiss_population="../pypsa-eur/data/bundle/je-e-21.03.02.xls",
country_shapes=pypsaeur('resources/country_shapes.geojson')
output:
biomass_potentials_all='resources/biomass_potentials_all_s{simpl}_{clusters}.csv',
biomass_potentials='resources/biomass_potentials_s{simpl}_{clusters}.csv'
threads: 1
resources: mem_mb=1000
benchmark: "benchmarks/build_biomass_potentials_s{simpl}_{clusters}"
script: 'scripts/build_biomass_potentials.py'
if config["sector"]["biomass_transport"]:
rule build_biomass_transport_costs:
input:
transport_cost_data=HTTP.remote("publications.jrc.ec.europa.eu/repository/bitstream/JRC98626/biomass potentials in europe_web rev.pdf", keep_local=True)
output:
biomass_transport_costs="resources/biomass_transport_costs.csv",
threads: 1
resources: mem_mb=1000
benchmark: "benchmarks/build_biomass_transport_costs"
script: 'scripts/build_biomass_transport_costs.py'
build_biomass_transport_costs_output = rules.build_biomass_transport_costs.output
else:
build_biomass_transport_costs_output = {}
rule build_salt_cavern_potentials:
input:
salt_caverns="data/h2_salt_caverns_GWh_per_sqkm.geojson",
regions_onshore=pypsaeur("resources/regions_onshore_elec_s{simpl}_{clusters}.geojson"),
regions_offshore=pypsaeur("resources/regions_offshore_elec_s{simpl}_{clusters}.geojson"),
output:
h2_cavern_potential="resources/salt_cavern_potentials_s{simpl}_{clusters}.csv"
threads: 1
resources: mem_mb=2000
benchmark: "benchmarks/build_salt_cavern_potentials_s{simpl}_{clusters}"
script: "scripts/build_salt_cavern_potentials.py"
rule build_ammonia_production:
input:
usgs="data/myb1-2017-nitro.xls"
output:
ammonia_production="resources/ammonia_production.csv"
threads: 1
resources: mem_mb=1000
benchmark: "benchmarks/build_ammonia_production"
script: 'scripts/build_ammonia_production.py'
rule build_industry_sector_ratios:
input:
ammonia_production="resources/ammonia_production.csv",
idees="data/jrc-idees-2015"
output:
industry_sector_ratios="resources/industry_sector_ratios.csv"
threads: 1
resources: mem_mb=1000
benchmark: "benchmarks/build_industry_sector_ratios"
script: 'scripts/build_industry_sector_ratios.py'
rule build_industrial_production_per_country:
input:
ammonia_production="resources/ammonia_production.csv",
jrc="data/jrc-idees-2015",
eurostat="data/eurostat-energy_balances-may_2018_edition",
output:
industrial_production_per_country="resources/industrial_production_per_country.csv"
threads: 8
resources: mem_mb=1000
benchmark: "benchmarks/build_industrial_production_per_country"
script: 'scripts/build_industrial_production_per_country.py'
rule build_industrial_production_per_country_tomorrow:
input:
industrial_production_per_country="resources/industrial_production_per_country.csv"
output:
industrial_production_per_country_tomorrow="resources/industrial_production_per_country_tomorrow_{planning_horizons}.csv"
threads: 1
resources: mem_mb=1000
benchmark: "benchmarks/build_industrial_production_per_country_tomorrow_{planning_horizons}"
script: 'scripts/build_industrial_production_per_country_tomorrow.py'
rule build_industrial_distribution_key:
input:
regions_onshore=pypsaeur('resources/regions_onshore_elec_s{simpl}_{clusters}.geojson'),
clustered_pop_layout="resources/pop_layout_elec_s{simpl}_{clusters}.csv",
hotmaps_industrial_database="data/Industrial_Database.csv",
output:
industrial_distribution_key="resources/industrial_distribution_key_elec_s{simpl}_{clusters}.csv"
threads: 1
resources: mem_mb=1000
benchmark: "benchmarks/build_industrial_distribution_key/s{simpl}_{clusters}"
script: 'scripts/build_industrial_distribution_key.py'
rule build_industrial_production_per_node:
input:
industrial_distribution_key="resources/industrial_distribution_key_elec_s{simpl}_{clusters}.csv",
industrial_production_per_country_tomorrow="resources/industrial_production_per_country_tomorrow_{planning_horizons}.csv"
output:
industrial_production_per_node="resources/industrial_production_elec_s{simpl}_{clusters}_{planning_horizons}.csv"
threads: 1
resources: mem_mb=1000
benchmark: "benchmarks/build_industrial_production_per_node/s{simpl}_{clusters}_{planning_horizons}"
script: 'scripts/build_industrial_production_per_node.py'
rule build_industrial_energy_demand_per_node:
input:
industry_sector_ratios="resources/industry_sector_ratios.csv",
industrial_production_per_node="resources/industrial_production_elec_s{simpl}_{clusters}_{planning_horizons}.csv",
industrial_energy_demand_per_node_today="resources/industrial_energy_demand_today_elec_s{simpl}_{clusters}.csv"
output:
industrial_energy_demand_per_node="resources/industrial_energy_demand_elec_s{simpl}_{clusters}_{planning_horizons}.csv"
threads: 1
resources: mem_mb=1000
benchmark: "benchmarks/build_industrial_energy_demand_per_node/s{simpl}_{clusters}_{planning_horizons}"
script: 'scripts/build_industrial_energy_demand_per_node.py'
rule build_industrial_energy_demand_per_country_today:
input:
jrc="data/jrc-idees-2015",
ammonia_production="resources/ammonia_production.csv",
industrial_production_per_country="resources/industrial_production_per_country.csv"
output:
industrial_energy_demand_per_country_today="resources/industrial_energy_demand_per_country_today.csv"
threads: 8
resources: mem_mb=1000
benchmark: "benchmarks/build_industrial_energy_demand_per_country_today"
script: 'scripts/build_industrial_energy_demand_per_country_today.py'
rule build_industrial_energy_demand_per_node_today:
input:
industrial_distribution_key="resources/industrial_distribution_key_elec_s{simpl}_{clusters}.csv",
industrial_energy_demand_per_country_today="resources/industrial_energy_demand_per_country_today.csv"
output:
industrial_energy_demand_per_node_today="resources/industrial_energy_demand_today_elec_s{simpl}_{clusters}.csv"
threads: 1
resources: mem_mb=1000
benchmark: "benchmarks/build_industrial_energy_demand_per_node_today/s{simpl}_{clusters}"
script: 'scripts/build_industrial_energy_demand_per_node_today.py'
if config["sector"]["retrofitting"]["retro_endogen"]:
rule build_retro_cost:
input:
building_stock="data/retro/data_building_stock.csv",
data_tabula="data/retro/tabula-calculator-calcsetbuilding.csv",
air_temperature = "resources/temp_air_total_elec_s{simpl}_{clusters}.nc",
u_values_PL="data/retro/u_values_poland.csv",
tax_w="data/retro/electricity_taxes_eu.csv",
construction_index="data/retro/comparative_level_investment.csv",
floor_area_missing="data/retro/floor_area_missing.csv",
clustered_pop_layout="resources/pop_layout_elec_s{simpl}_{clusters}.csv",
cost_germany="data/retro/retro_cost_germany.csv",
window_assumptions="data/retro/window_assumptions.csv",
output:
retro_cost="resources/retro_cost_elec_s{simpl}_{clusters}.csv",
floor_area="resources/floor_area_elec_s{simpl}_{clusters}.csv"
resources: mem_mb=1000
benchmark: "benchmarks/build_retro_cost/s{simpl}_{clusters}"
script: "scripts/build_retro_cost.py"
build_retro_cost_output = rules.build_retro_cost.output
else:
build_retro_cost_output = {}
rule build_population_weighted_energy_totals:
input:
energy_totals='resources/energy_totals.csv',
clustered_pop_layout="resources/pop_layout_elec_s{simpl}_{clusters}.csv"
output: "resources/pop_weighted_energy_totals_s{simpl}_{clusters}.csv"
threads: 1
resources: mem_mb=2000
script: "scripts/build_population_weighted_energy_totals.py"
rule build_transport_demand:
input:
clustered_pop_layout="resources/pop_layout_elec_s{simpl}_{clusters}.csv",
pop_weighted_energy_totals="resources/pop_weighted_energy_totals_s{simpl}_{clusters}.csv",
transport_data='resources/transport_data.csv',
traffic_data_KFZ="data/emobility/KFZ__count",
traffic_data_Pkw="data/emobility/Pkw__count",
temp_air_total="resources/temp_air_total_elec_s{simpl}_{clusters}.nc",
output:
transport_demand="resources/transport_demand_s{simpl}_{clusters}.csv",
transport_data="resources/transport_data_s{simpl}_{clusters}.csv",
avail_profile="resources/avail_profile_s{simpl}_{clusters}.csv",
dsm_profile="resources/dsm_profile_s{simpl}_{clusters}.csv"
threads: 1
resources: mem_mb=2000
script: "scripts/build_transport_demand.py"
rule prepare_sector_network:
input:
overrides="data/override_component_attrs",
network=pypsaeur('networks/elec_s{simpl}_{clusters}_ec_lv{lv}_{opts}.nc'),
energy_totals_name='resources/energy_totals.csv',
eurostat=input_eurostat,
pop_weighted_energy_totals="resources/pop_weighted_energy_totals_s{simpl}_{clusters}.csv",
transport_demand="resources/transport_demand_s{simpl}_{clusters}.csv",
transport_data="resources/transport_data_s{simpl}_{clusters}.csv",
avail_profile="resources/avail_profile_s{simpl}_{clusters}.csv",
dsm_profile="resources/dsm_profile_s{simpl}_{clusters}.csv",
co2_totals_name='resources/co2_totals.csv',
co2="data/eea/UNFCCC_v23.csv",
biomass_potentials='resources/biomass_potentials_s{simpl}_{clusters}.csv',
heat_profile="data/heat_load_profile_BDEW.csv",
costs=CDIR + "costs_{planning_horizons}.csv",
profile_offwind_ac=pypsaeur("resources/profile_offwind-ac.nc"),
profile_offwind_dc=pypsaeur("resources/profile_offwind-dc.nc"),
h2_cavern="resources/salt_cavern_potentials_s{simpl}_{clusters}.csv",
busmap_s=pypsaeur("resources/busmap_elec_s{simpl}.csv"),
busmap=pypsaeur("resources/busmap_elec_s{simpl}_{clusters}.csv"),
clustered_pop_layout="resources/pop_layout_elec_s{simpl}_{clusters}.csv",
simplified_pop_layout="resources/pop_layout_elec_s{simpl}.csv",
industrial_demand="resources/industrial_energy_demand_elec_s{simpl}_{clusters}_{planning_horizons}.csv",
heat_demand_urban="resources/heat_demand_urban_elec_s{simpl}_{clusters}.nc",
heat_demand_rural="resources/heat_demand_rural_elec_s{simpl}_{clusters}.nc",
heat_demand_total="resources/heat_demand_total_elec_s{simpl}_{clusters}.nc",
temp_soil_total="resources/temp_soil_total_elec_s{simpl}_{clusters}.nc",
temp_soil_rural="resources/temp_soil_rural_elec_s{simpl}_{clusters}.nc",
temp_soil_urban="resources/temp_soil_urban_elec_s{simpl}_{clusters}.nc",
temp_air_total="resources/temp_air_total_elec_s{simpl}_{clusters}.nc",
temp_air_rural="resources/temp_air_rural_elec_s{simpl}_{clusters}.nc",
temp_air_urban="resources/temp_air_urban_elec_s{simpl}_{clusters}.nc",
cop_soil_total="resources/cop_soil_total_elec_s{simpl}_{clusters}.nc",
cop_soil_rural="resources/cop_soil_rural_elec_s{simpl}_{clusters}.nc",
cop_soil_urban="resources/cop_soil_urban_elec_s{simpl}_{clusters}.nc",
cop_air_total="resources/cop_air_total_elec_s{simpl}_{clusters}.nc",
cop_air_rural="resources/cop_air_rural_elec_s{simpl}_{clusters}.nc",
cop_air_urban="resources/cop_air_urban_elec_s{simpl}_{clusters}.nc",
solar_thermal_total="resources/solar_thermal_total_elec_s{simpl}_{clusters}.nc",
solar_thermal_urban="resources/solar_thermal_urban_elec_s{simpl}_{clusters}.nc",
solar_thermal_rural="resources/solar_thermal_rural_elec_s{simpl}_{clusters}.nc",
**build_retro_cost_output,
**build_biomass_transport_costs_output,
**gas_infrastructure
output: RDIR + '/prenetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc'
threads: 1
resources: mem_mb=2000
benchmark: RDIR + "/benchmarks/prepare_network/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}"
script: "scripts/prepare_sector_network.py"
rule plot_network:
input:
overrides="data/override_component_attrs",
network=RDIR + "/postnetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc"
output:
map=RDIR + "/maps/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}-costs-all_{planning_horizons}.pdf",
today=RDIR + "/maps/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}-today.pdf"
threads: 2
resources: mem_mb=10000
benchmark: RDIR + "/benchmarks/plot_network/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}"
script: "scripts/plot_network.py"
rule copy_config:
output: SDIR + '/configs/config.yaml'
threads: 1
resources: mem_mb=1000
benchmark: SDIR + "/benchmarks/copy_config"
script: "scripts/copy_config.py"
rule make_summary:
input:
overrides="data/override_component_attrs",
networks=expand(
RDIR + "/postnetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc",
**config['scenario']
),
costs=CDIR + "costs_{}.csv".format(config['scenario']['planning_horizons'][0]),
plots=expand(
RDIR + "/maps/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}-costs-all_{planning_horizons}.pdf",
**config['scenario']
)
output:
nodal_costs=SDIR + '/csvs/nodal_costs.csv',
nodal_capacities=SDIR + '/csvs/nodal_capacities.csv',
nodal_cfs=SDIR + '/csvs/nodal_cfs.csv',
cfs=SDIR + '/csvs/cfs.csv',
costs=SDIR + '/csvs/costs.csv',
capacities=SDIR + '/csvs/capacities.csv',
curtailment=SDIR + '/csvs/curtailment.csv',
energy=SDIR + '/csvs/energy.csv',
supply=SDIR + '/csvs/supply.csv',
supply_energy=SDIR + '/csvs/supply_energy.csv',
prices=SDIR + '/csvs/prices.csv',
weighted_prices=SDIR + '/csvs/weighted_prices.csv',
market_values=SDIR + '/csvs/market_values.csv',
price_statistics=SDIR + '/csvs/price_statistics.csv',
metrics=SDIR + '/csvs/metrics.csv'
threads: 2
resources: mem_mb=10000
benchmark: SDIR + "/benchmarks/make_summary"
script: "scripts/make_summary.py"
rule plot_summary:
input:
costs=SDIR + '/csvs/costs.csv',
energy=SDIR + '/csvs/energy.csv',
balances=SDIR + '/csvs/supply_energy.csv',
eurostat=input_eurostat,
country_codes='data/Country_codes.csv',
output:
costs=SDIR + '/graphs/costs.pdf',
energy=SDIR + '/graphs/energy.pdf',
balances=SDIR + '/graphs/balances-energy.pdf'
threads: 2
resources: mem_mb=10000
benchmark: SDIR + "/benchmarks/plot_summary"
script: "scripts/plot_summary.py"
if config["foresight"] == "overnight":
rule solve_network:
input:
overrides="data/override_component_attrs",
network=RDIR + "/prenetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc",
costs=CDIR + "costs_{planning_horizons}.csv",
config=SDIR + '/configs/config.yaml'
output: RDIR + "/postnetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc"
shadow: "shallow"
log:
solver=RDIR + "/logs/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}_solver.log",
python=RDIR + "/logs/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}_python.log",
memory=RDIR + "/logs/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}_memory.log"
threads: config['solving']['solver'].get('threads', 4)
resources: mem_mb=config['solving']['mem']
benchmark: RDIR + "/benchmarks/solve_network/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}"
script: "scripts/solve_network.py"
if config["foresight"] == "myopic":
rule add_existing_baseyear:
input:
overrides="data/override_component_attrs",
network=RDIR + '/prenetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc',
powerplants=pypsaeur('resources/powerplants.csv'),
busmap_s=pypsaeur("resources/busmap_elec_s{simpl}.csv"),
busmap=pypsaeur("resources/busmap_elec_s{simpl}_{clusters}.csv"),
clustered_pop_layout="resources/pop_layout_elec_s{simpl}_{clusters}.csv",
costs=CDIR + "costs_{}.csv".format(config['scenario']['planning_horizons'][0]),
cop_soil_total="resources/cop_soil_total_elec_s{simpl}_{clusters}.nc",
cop_air_total="resources/cop_air_total_elec_s{simpl}_{clusters}.nc",
existing_heating='data/existing_infrastructure/existing_heating_raw.csv',
country_codes='data/Country_codes.csv',
existing_solar='data/existing_infrastructure/solar_capacity_IRENA.csv',
existing_onwind='data/existing_infrastructure/onwind_capacity_IRENA.csv',
existing_offwind='data/existing_infrastructure/offwind_capacity_IRENA.csv',
output: RDIR + '/prenetworks-brownfield/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc'
wildcard_constraints:
planning_horizons=config['scenario']['planning_horizons'][0] #only applies to baseyear
threads: 1
resources: mem_mb=2000
benchmark: RDIR + '/benchmarks/add_existing_baseyear/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}'
script: "scripts/add_existing_baseyear.py"
def solved_previous_horizon(wildcards):
planning_horizons = config["scenario"]["planning_horizons"]
i = planning_horizons.index(int(wildcards.planning_horizons))
planning_horizon_p = str(planning_horizons[i-1])
return RDIR + "/postnetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_" + planning_horizon_p + ".nc"
rule add_brownfield:
input:
overrides="data/override_component_attrs",
network=RDIR + '/prenetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc',
network_p=solved_previous_horizon, #solved network at previous time step
costs=CDIR + "costs_{planning_horizons}.csv",
cop_soil_total="resources/cop_soil_total_elec_s{simpl}_{clusters}.nc",
cop_air_total="resources/cop_air_total_elec_s{simpl}_{clusters}.nc"
output: RDIR + "/prenetworks-brownfield/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc"
threads: 4
resources: mem_mb=10000
benchmark: RDIR + '/benchmarks/add_brownfield/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}'
script: "scripts/add_brownfield.py"
ruleorder: add_existing_baseyear > add_brownfield
rule solve_network_myopic:
input:
overrides="data/override_component_attrs",
network=RDIR + "/prenetworks-brownfield/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc",
costs=CDIR + "costs_{planning_horizons}.csv",
config=SDIR + '/configs/config.yaml'
output: RDIR + "/postnetworks/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}.nc"
shadow: "shallow"
log:
solver=RDIR + "/logs/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}_solver.log",
python=RDIR + "/logs/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}_python.log",
memory=RDIR + "/logs/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}_memory.log"
threads: 4
resources: mem_mb=config['solving']['mem']
benchmark: RDIR + "/benchmarks/solve_network/elec_s{simpl}_{clusters}_lv{lv}_{opts}_{sector_opts}_{planning_horizons}"
script: "scripts/solve_network.py"