run: test-overnight  # use this to keep track of runs with different settings
foresight: overnight # options are overnight, myopic, perfect (perfect is not yet implemented)

scenario:
  lv: # allowed transmission line volume expansion, can be any float >= 1.0 (today) or "opt"
    - 1.5
  clusters: # number of nodes in Europe, any integer between 37 (1 node per country-zone) and several hundred
    - 5
  sector_opts: # this is where the main scenario settings are
    - CO2L0-191H-T-H-B-I-A-solar+p3-dist1
  planning_horizons: # investment years for myopic and perfect; or costs year for overnight
    - 2030
  # for example, set to [2020, 2030, 2040, 2050] for myopic foresight

snapshots:
  # arguments to pd.date_range
  start: "2013-03-01"
  end: "2013-04-01"
  inclusive: left # end is not inclusive

atlite:
  cutout: ../pypsa-eur/cutouts/be-03-2013-era5.nc

sector:
  co2_vent: true
  SMR: true
  regional_co2_sequestration_potential:
    enable: false
  co2_sequestration_potential: 200  #MtCO2/a sequestration potential for Europe
  co2_sequestration_cost: 10   #EUR/tCO2 for sequestration of CO2
  co2_network: false
  cc_fraction: 0.9  # default fraction of CO2 captured with post-combustion capture
  hydrogen_underground_storage: true
  hydrogen_underground_storage_locations:
    # - onshore  # more than 50 km from sea
    - nearshore  # within 50 km of sea
    # - offshore
  use_fischer_tropsch_waste_heat: true
  use_fuel_cell_waste_heat: true
  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
  H2_network: true
  gas_network: true
  H2_retrofit: true # if set to True existing gas pipes can be retrofitted to H2 pipes
  biomass_boiler: false

solving:
  solver:
    name: cbc
    options: cbc-default
  mem: 4000 #memory in MB; 20 GB enough for 50+B+I+H2; 100 GB for 181+B+I+H2