# SPDX-FileCopyrightText: : 2023 The PyPSA-Eur Authors
#
# SPDX-License-Identifier: MIT
if config["enable"].get("prepare_links_p_nom", False):
rule prepare_links_p_nom:
output:
"data/links_p_nom.csv",
log:
LOGS + "prepare_links_p_nom.log",
threads: 1
resources:
mem_mb=1500,
conda:
"../envs/environment.yaml"
script:
"../scripts/prepare_links_p_nom.py"
rule build_electricity_demand:
params:
snapshots=config["snapshots"],
countries=config["countries"],
load=config["load"],
input:
ancient("data/load_raw.csv"),
output:
RESOURCES + "load.csv",
log:
LOGS + "build_electricity_demand.log",
resources:
mem_mb=5000,
conda:
"../envs/environment.yaml"
script:
"../scripts/build_electricity_demand.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",
output:
RESOURCES + "powerplants.csv",
log:
LOGS + "build_powerplants.log",
threads: 1
resources:
mem_mb=5000,
conda:
"../envs/environment.yaml"
script:
"../scripts/build_powerplants.py"
rule base_network:
params:
countries=config["countries"],
snapshots=config["snapshots"],
lines=config["lines"],
links=config["links"],
transformers=config["transformers"],
input:
eg_buses="data/entsoegridkit/buses.csv",
eg_lines="data/entsoegridkit/lines.csv",
eg_links="data/entsoegridkit/links.csv",
eg_converters="data/entsoegridkit/converters.csv",
eg_transformers="data/entsoegridkit/transformers.csv",
parameter_corrections="data/parameter_corrections.yaml",
links_p_nom="data/links_p_nom.csv",
links_tyndp="data/links_tyndp.csv",
country_shapes=RESOURCES + "country_shapes.geojson",
offshore_shapes=RESOURCES + "offshore_shapes.geojson",
europe_shape=RESOURCES + "europe_shape.geojson",
output:
RESOURCES + "networks/base.nc",
log:
LOGS + "base_network.log",
benchmark:
BENCHMARKS + "base_network"
threads: 1
resources:
mem_mb=1500,
conda:
"../envs/environment.yaml"
script:
"../scripts/base_network.py"
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"),
nuts3=ancient("data/bundle/NUTS_2013_60M_SH/data/NUTS_RG_60M_2013.shp"),
nuts3pop=ancient("data/bundle/nama_10r_3popgdp.tsv.gz"),
nuts3gdp=ancient("data/bundle/nama_10r_3gdp.tsv.gz"),
ch_cantons=ancient("data/bundle/ch_cantons.csv"),
ch_popgdp=ancient("data/bundle/je-e-21.03.02.xls"),
output:
country_shapes=RESOURCES + "country_shapes.geojson",
offshore_shapes=RESOURCES + "offshore_shapes.geojson",
europe_shape=RESOURCES + "europe_shape.geojson",
nuts3_shapes=RESOURCES + "nuts3_shapes.geojson",
log:
LOGS + "build_shapes.log",
threads: 1
resources:
mem_mb=1500,
conda:
"../envs/environment.yaml"
script:
"../scripts/build_shapes.py"
rule build_bus_regions:
params:
countries=config["countries"],
input:
country_shapes=RESOURCES + "country_shapes.geojson",
offshore_shapes=RESOURCES + "offshore_shapes.geojson",
base_network=RESOURCES + "networks/base.nc",
output:
regions_onshore=RESOURCES + "regions_onshore.geojson",
regions_offshore=RESOURCES + "regions_offshore.geojson",
log:
LOGS + "build_bus_regions.log",
threads: 1
resources:
mem_mb=1000,
conda:
"../envs/environment.yaml"
script:
"../scripts/build_bus_regions.py"
if config["enable"].get("build_cutout", False):
rule build_cutout:
params:
snapshots=config["snapshots"],
cutouts=config["atlite"]["cutouts"],
input:
regions_onshore=RESOURCES + "regions_onshore.geojson",
regions_offshore=RESOURCES + "regions_offshore.geojson",
output:
protected("cutouts/" + CDIR + "{cutout}.nc"),
log:
"logs/" + CDIR + "build_cutout/{cutout}.log",
benchmark:
"benchmarks/" + CDIR + "build_cutout_{cutout}"
threads: ATLITE_NPROCESSES
resources:
mem_mb=ATLITE_NPROCESSES * 1000,
conda:
"../envs/environment.yaml"
script:
"../scripts/build_cutout.py"
if config["enable"].get("build_natura_raster", False):
rule build_natura_raster:
input:
natura=ancient("data/bundle/natura/Natura2000_end2015.shp"),
cutouts=expand("cutouts/" + CDIR + "{cutouts}.nc", **config["atlite"]),
output:
RESOURCES + "natura.tiff",
resources:
mem_mb=5000,
log:
LOGS + "build_natura_raster.log",
conda:
"../envs/environment.yaml"
script:
"../scripts/build_natura_raster.py"
rule build_ship_raster:
input:
ship_density="data/shipdensity_global.zip",
cutouts=expand(
"cutouts/" + CDIR + "{cutout}.nc",
cutout=[
config["renewable"][k]["cutout"]
for k in config["electricity"]["renewable_carriers"]
],
),
output:
RESOURCES + "shipdensity_raster.tif",
log:
LOGS + "build_ship_raster.log",
resources:
mem_mb=5000,
benchmark:
BENCHMARKS + "build_ship_raster"
conda:
"../envs/environment.yaml"
script:
"../scripts/build_ship_raster.py"
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"),
natura=lambda w: (
RESOURCES + "natura.tiff"
if config["renewable"][w.technology]["natura"]
else []
),
gebco=ancient(
lambda w: (
"data/bundle/GEBCO_2014_2D.nc"
if config["renewable"][w.technology].get("max_depth")
else []
)
),
ship_density=lambda w: (
RESOURCES + "shipdensity_raster.tif"
if "ship_threshold" in config["renewable"][w.technology].keys()
else []
),
country_shapes=RESOURCES + "country_shapes.geojson",
offshore_shapes=RESOURCES + "offshore_shapes.geojson",
regions=lambda w: (
RESOURCES + "regions_onshore.geojson"
if w.technology in ("onwind", "solar")
else RESOURCES + "regions_offshore.geojson"
),
cutout=lambda w: "cutouts/"
+ CDIR
+ config["renewable"][w.technology]["cutout"]
+ ".nc",
output:
profile=RESOURCES + "profile_{technology}.nc",
log:
LOGS + "build_renewable_profile_{technology}.log",
benchmark:
BENCHMARKS + "build_renewable_profiles_{technology}"
threads: ATLITE_NPROCESSES
resources:
mem_mb=ATLITE_NPROCESSES * 5000,
wildcard_constraints:
technology="(?!hydro).*", # Any technology other than hydro
conda:
"../envs/environment.yaml"
script:
"../scripts/build_renewable_profiles.py"
rule build_monthly_prices:
input:
co2_price_raw="data/validation/emission-spot-primary-market-auction-report-2019-data.xls",
fuel_price_raw="data/validation/energy-price-trends-xlsx-5619002.xlsx",
output:
co2_price=RESOURCES + "co2_price.csv",
fuel_price=RESOURCES + "monthly_fuel_price.csv",
log:
LOGS + "build_monthly_prices.log",
threads: 1
resources:
mem_mb=5000,
conda:
"../envs/environment.yaml"
script:
"../scripts/build_monthly_prices.py"
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",
cutout=f"cutouts/" + CDIR + config["renewable"]["hydro"]["cutout"] + ".nc",
output:
RESOURCES + "profile_hydro.nc",
log:
LOGS + "build_hydro_profile.log",
resources:
mem_mb=5000,
conda:
"../envs/environment.yaml"
script:
"../scripts/build_hydro_profile.py"
if config["lines"]["dynamic_line_rating"]["activate"]:
rule build_line_rating:
input:
base_network=RESOURCES + "networks/base.nc",
cutout="cutouts/"
+ CDIR
+ config["lines"]["dynamic_line_rating"]["cutout"]
+ ".nc",
output:
output=RESOURCES + "networks/line_rating.nc",
log:
LOGS + "build_line_rating.log",
benchmark:
BENCHMARKS + "build_line_rating"
threads: ATLITE_NPROCESSES
resources:
mem_mb=ATLITE_NPROCESSES * 1000,
conda:
"../envs/environment.yaml"
script:
"../scripts/build_line_rating.py"
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["conventional"],
costs=config["costs"],
input:
**{
f"profile_{tech}": RESOURCES + f"profile_{tech}.nc"
for tech in config["electricity"]["renewable_carriers"]
},
**{
f"conventional_{carrier}_{attr}": fn
for carrier, d in config.get("conventional", {None: {}}).items()
if carrier in config["electricity"]["conventional_carriers"]
for attr, fn in d.items()
if str(fn).startswith("data/")
},
base_network=RESOURCES + "networks/base.nc",
line_rating=RESOURCES + "networks/line_rating.nc"
if config["lines"]["dynamic_line_rating"]["activate"]
else RESOURCES + "networks/base.nc",
tech_costs=COSTS,
regions=RESOURCES + "regions_onshore.geojson",
powerplants=RESOURCES + "powerplants.csv",
hydro_capacities=ancient("data/bundle/hydro_capacities.csv"),
geth_hydro_capacities="data/geth2015_hydro_capacities.csv",
unit_commitment="data/unit_commitment.csv",
fuel_price=RESOURCES + "monthly_fuel_price.csv",
load=RESOURCES + "load.csv",
nuts3_shapes=RESOURCES + "nuts3_shapes.geojson",
output:
RESOURCES + "networks/elec.nc",
log:
LOGS + "add_electricity.log",
benchmark:
BENCHMARKS + "add_electricity"
threads: 1
resources:
mem_mb=10000,
conda:
"../envs/environment.yaml"
script:
"../scripts/add_electricity.py"
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.nc",
tech_costs=COSTS,
regions_onshore=RESOURCES + "regions_onshore.geojson",
regions_offshore=RESOURCES + "regions_offshore.geojson",
output:
network=RESOURCES + "networks/elec_s{simpl}.nc",
regions_onshore=RESOURCES + "regions_onshore_elec_s{simpl}.geojson",
regions_offshore=RESOURCES + "regions_offshore_elec_s{simpl}.geojson",
busmap=RESOURCES + "busmap_elec_s{simpl}.csv",
connection_costs=RESOURCES + "connection_costs_s{simpl}.csv",
log:
LOGS + "simplify_network/elec_s{simpl}.log",
benchmark:
BENCHMARKS + "simplify_network/elec_s{simpl}"
threads: 1
resources:
mem_mb=12000,
conda:
"../envs/environment.yaml"
script:
"../scripts/simplify_network.py"
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_s{simpl}.nc",
regions_onshore=RESOURCES + "regions_onshore_elec_s{simpl}.geojson",
regions_offshore=RESOURCES + "regions_offshore_elec_s{simpl}.geojson",
busmap=ancient(RESOURCES + "busmap_elec_s{simpl}.csv"),
custom_busmap=(
"data/custom_busmap_elec_s{simpl}_{clusters}.csv"
if config["enable"].get("custom_busmap", False)
else []
),
tech_costs=COSTS,
output:
network=RESOURCES + "networks/elec_s{simpl}_{clusters}.nc",
regions_onshore=RESOURCES + "regions_onshore_elec_s{simpl}_{clusters}.geojson",
regions_offshore=RESOURCES + "regions_offshore_elec_s{simpl}_{clusters}.geojson",
busmap=RESOURCES + "busmap_elec_s{simpl}_{clusters}.csv",
linemap=RESOURCES + "linemap_elec_s{simpl}_{clusters}.csv",
log:
LOGS + "cluster_network/elec_s{simpl}_{clusters}.log",
benchmark:
BENCHMARKS + "cluster_network/elec_s{simpl}_{clusters}"
threads: 1
resources:
mem_mb=10000,
conda:
"../envs/environment.yaml"
script:
"../scripts/cluster_network.py"
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_s{simpl}_{clusters}.nc",
tech_costs=COSTS,
output:
RESOURCES + "networks/elec_s{simpl}_{clusters}_ec.nc",
log:
LOGS + "add_extra_components/elec_s{simpl}_{clusters}.log",
benchmark:
BENCHMARKS + "add_extra_components/elec_s{simpl}_{clusters}_ec"
threads: 1
resources:
mem_mb=4000,
conda:
"../envs/environment.yaml"
script:
"../scripts/add_extra_components.py"
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_s{simpl}_{clusters}_ec.nc",
tech_costs=COSTS,
co2_price=RESOURCES + "co2_price.csv",
output:
RESOURCES + "networks/elec_s{simpl}_{clusters}_ec_l{ll}_{opts}.nc",
log:
LOGS + "prepare_network/elec_s{simpl}_{clusters}_ec_l{ll}_{opts}.log",
benchmark:
(BENCHMARKS + "prepare_network/elec_s{simpl}_{clusters}_ec_l{ll}_{opts}")
threads: 1
resources:
mem_mb=4000,
conda:
"../envs/environment.yaml"
script:
"../scripts/prepare_network.py"