pypsa-eur/config.myopic.yaml

logging_level: INFO

results_dir: 'results/'
summary_dir: results
costs_dir: '../technology_data/outputs/'
run: 'your-run-name'  # use this to keep track of runs with different settings
foresight: 'myopic' #options are overnight, myopic, perfect (perfect is not yet implemented)


scenario:
  sectors: [E]  # ignore this legacy setting
  simpl: ['']  # only relevant for PyPSA-Eur
  lv: [1.0,1.5]    # allowed transmission line volume expansion, can be any float >= 1.0 (today) or "opt"
  clusters: [45,50] # number of nodes in Europe, any integer between 37 (1 node per country-zone) and several hundred
  opts: ['']  # only relevant for PyPSA-Eur
  sector_opts: [Co2L0-3H-H-B-solar3-dist1]  # this is where the main scenario settings are
  # 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
  # solarx or onwindx changes the available installable potential by factor x
  # dist{n} includes distribution grids with investment cost of n times cost in data/costs.csv
  planning_horizons : [2020, 2030, 2040, 2050] #investment years for myopic and perfect; or costs year for overnight
  co2_budget_name: ['go'] #gives shape of CO2 budgets over planning horizon

# snapshots are originally set in PyPSA-Eur/config.yaml but used again by PyPSA-Eur-Sec
snapshots:
  # arguments to pd.date_range
  start: "2013-01-01"
  end: "2014-01-01"
  closed: 'left' # end is not inclusive

atlite:
  cutout_dir: '../pypsa-eur/cutouts'
  cutout_name: "europe-2013-era5"

# this information is NOT used but needed as an argument for
# pypsa-eur/scripts/add_electricity.py/load_costs in make_summary.py
electricity:
  max_hours:
    battery: 6
    H2: 168

biomass:
  year: 2030
  scenario: "Med"

# only relevant for foresight = myopic or perfect
existing_capacities:
  grouping_years: [1980, 1985, 1990, 1995, 2000, 2005, 2010, 2015, 2019]
  threshold_capacity: 10
  conventional_carriers: ['lignite', 'coal', 'oil', 'uranium']

sector:
  'central' : True
  'central_fraction' : 0.6
  'dsm_restriction_value' : 0.75  #Set to 0 for no restriction on BEV DSM
  'dsm_restriction_time' : 7  #Time at which SOC of BEV has to be dsm_restriction_value
  '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_upper_degree_factor' : 1.6
  'EV_lower_degree_factor' : 0.98
  'EV_upper_degree_factor' : 0.63
  'district_heating_loss' : 0.15
  'bev' : True #turns on EV battery
  'bev_availability' : 0.5  #How many cars do smart charging
  'v2g' : True #allows feed-in to grid from EV battery
  'transport_fuel_cell_share' : 0.   #0 means all EVs, 1 means all FCs
  'shipping_average_efficiency' : 0.4 #For conversion of fuel oil to propulsion in 2011
  'time_dep_hp_cop' : True
  'space_heating_fraction' : 1.0 #fraction of space heating active
  'retrofitting' : False
  'retroI-fraction' : 0.25
  'retroII-fraction' : 0.55
  'retrofitting-cost_factor' : 1.0
  'tes' : True
  'tes_tau' : 3.
  'boilers' : True
  'oil_boilers': False
  'chp' : True
  'solar_thermal' : True
  'solar_cf_correction': 0.788457  # =  >>> 1/1.2683
  'marginal_cost_storage' : 0. #1e-4
  'methanation' : True
  'helmeth' : True
  'dac' : True
  'co2_vent' : True
  'SMR' : True
  'ccs_fraction' : 0.9
  'hydrogen_underground_storage' : True
  'use_fischer_tropsch_waste_heat' : True
  'use_fuel_cell_waste_heat' : True
  'electricity_distribution_grid' : False
  '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

costs:
  year: 2030
  lifetime: 25 #default lifetime
  # From a Lion Hirth paper, also reflects average of Noothout et al 2016
  discountrate: 0.07
  # [EUR/USD] ECB: https://www.ecb.europa.eu/stats/exchange/eurofxref/html/eurofxref-graph-usd.en.html # noqa: E501
  USD2013_to_EUR2013: 0.7532

  # Marginal and capital costs can be overwritten
  # capital_cost:
  #   Wind: Bla
  marginal_cost: #
    solar: 0.01
    onwind: 0.015
    offwind: 0.015
    hydro: 0.
    H2: 0.
    battery: 0.

  emission_prices: # only used with the option Ep (emission prices)
    co2: 0.

  lines:
    length_factor: 1.25 #to estimate offwind connection costs


solving:
  #tmpdir: "path/to/tmp"
  options:
    formulation: kirchhoff
    clip_p_max_pu: 1.e-2
    load_shedding: false
    noisy_costs: true

    min_iterations: 1
    max_iterations: 1
    # nhours: 1

  solver:
    name: gurobi
    threads: 4
    method: 2 # barrier
    crossover: 0
    BarConvTol: 1.e-5
    Seed: 123
    AggFill: 0
    PreDual: 0
    GURO_PAR_BARDENSETHRESH: 200
    #FeasibilityTol: 1.e-6

    #name: cplex
    #threads: 4
    #lpmethod: 4 # barrier
    #solutiontype: 2 # non basic solution, ie no crossover
    #barrier_convergetol: 1.e-5
    #feasopt_tolerance: 1.e-6
  mem: 30000 #memory in MB; 20 GB enough for 50+B+I+H2; 100 GB for 181+B+I+H2

industry:
  'DRI_ratio' : 0.5 #ratio of today's blast-furnace steel (60% primary route, 40% secondary) to future assumption (30% primary, 70% secondary), transformed into DRI + electric arc
  'H2_DRI' : 1.7   #H2 consumption in Direct Reduced Iron (DRI),  MWh_H2/ton_Steel from Vogl et al (2018) doi:10.1016/j.jclepro.2018.08.279
  'Al_to_scrap' : 0.5 # ratio of primary-route Aluminum transformed into scrap (today 40% to future 20% primary route)
  'H2_for_NH3' : 85000 # H2 in GWh/a for 17 MtNH3/a transformed from SMR to electrolyzed-H2, following Lechtenböhmer(2016)
  '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

plotting:
  map:
    figsize: [7, 7]
    boundaries: [-10.2, 29, 35,  72]
    p_nom:
      bus_size_factor: 5.e+4
      linewidth_factor: 3.e+3 # 1.e+3  #3.e+3

  costs_max: 1200
  costs_threshold: 1


  energy_max: 20000.
  energy_min: -15000.
  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"]
  # store_techs: ["Li ion", "water tanks"]
  load_carriers: ["AC load"] #, "heat load", "Li ion 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"]
  tech_colors:
    "onwind" : "b"
    "onshore wind" : "b"
    'offwind' : "c"
    'offshore wind' : "c"
    'offwind-ac' : "c"
    'offshore wind (AC)' : "c"
    'offwind-dc' : "#009999"
    'offshore wind (DC)' : "#009999"
    'wave' : "#004444"
    "hydro" : "#3B5323"
    "hydro reservoir" : "#3B5323"
    "ror" : "#78AB46"
    "run of river" : "#78AB46"
    'hydroelectricity' : '#006400'
    'solar' : "y"
    'solar PV' : "y"
    'solar thermal' : 'coral'
    'solar rooftop' : '#e6b800'
    "OCGT" : "wheat"
    "OCGT marginal" : "sandybrown"
    "OCGT-heat" : "orange"
    "gas boiler" : "orange"
    "gas boilers" : "orange"
    "gas boiler marginal" : "orange"
    "gas-to-power/heat" : "orange"
    "gas" : "brown"
    "natural gas" : "brown"
    "SMR" : "#4F4F2F"
    "oil" : "#B5A642"
    "oil boiler" : "#B5A677"
    "lines" : "k"
    "transmission lines" : "k"
    "H2" : "m"
    "hydrogen storage" : "m"
    "battery" : "slategray"
    "battery storage" : "slategray"
    "home battery" : "#614700"
    "home battery storage" : "#614700"
    "Nuclear" : "r"
    "Nuclear marginal" : "r"
    "nuclear" : "r"
    "uranium" : "r"
    "Coal" : "k"
    "coal" : "k"
    "Coal marginal" : "k"
    "Lignite" : "grey"
    "lignite" : "grey"
    "Lignite marginal" : "grey"
    "CCGT" : "orange"
    "CCGT marginal" : "orange"
    "heat pumps" : "#76EE00"
    "heat pump" : "#76EE00"
    "air heat pump" : "#76EE00"
    "ground heat pump" : "#40AA00"
    "power-to-heat" : "#40AA00"
    "resistive heater" : "pink"
    "Sabatier" : "#FF1493"
    "methanation" : "#FF1493"
    "power-to-gas" : "#FF1493"
    "power-to-liquid" : "#FFAAE9"
    "helmeth" : "#7D0552"
    "helmeth" : "#7D0552"
    "DAC" : "#E74C3C"
    "co2 stored" : "#123456"
    "CO2 sequestration" : "#123456"
    "CCS" : "k"
    "co2" : "#123456"
    "co2 vent" : "#654321"
    "solid biomass for industry co2 from atmosphere" : "#654321"
    "solid biomass for industry co2 to stored": "#654321"
    "gas for industry co2 to atmosphere": "#654321"
    "gas for industry co2 to stored": "#654321"
    "Fischer-Tropsch" : "#44DD33"
    "kerosene for aviation": "#44BB11"
    "naphtha for industry" : "#44FF55"
    "water tanks" : "#BBBBBB"
    "hot water storage" : "#BBBBBB"
    "hot water charging" : "#BBBBBB"
    "hot water discharging" : "#999999"
    "CHP" : "r"
    "CHP heat" : "r"
    "CHP electric" : "r"
    "PHS" : "g"
    "Ambient" : "k"
    "Electric load" : "b"
    "Heat load" : "r"
    "Transport load" : "grey"
    "heat" : "darkred"
    "rural heat" : "#880000"
    "central heat" : "#b22222"
    "decentral heat" : "#800000"
    "low-temperature heat for industry" : "#991111"
    "process heat" : "#FF3333"
    "heat demand" : "darkred"
    "electric demand" : "k"
    "Li ion" : "grey"
    "district heating" : "#CC4E5C"
    "retrofitting" : "purple"
    "building retrofitting" : "purple"
    "BEV charger" : "grey"
    "V2G" : "grey"
    "transport" : "grey"
    "electricity" : "k"
    "gas for industry" : "#333333"
    "solid biomass for industry" : "#555555"
    "industry new electricity" : "#222222"
    "process emissions to stored" : "#444444"
    "process emissions to atmosphere" : "#888888"
    "process emissions" : "#222222"
    "transport fuel cell" : "#AAAAAA"
    "biogas" : "#800000"
    "solid biomass" : "#DAA520"
    "today" : "#D2691E"
    "shipping" : "#6495ED"
    "electricity distribution grid" : "#333333"
  nice_names:
    # OCGT: "Gas"
    # OCGT marginal: "Gas (marginal)"
    offwind: "offshore wind"
    onwind: "onshore wind"
    battery: "Battery storage"
    lines: "Transmission lines"
    AC line: "AC lines"
    AC-AC: "DC lines"
    ror: "Run of river"
  nice_names_n:
    offwind: "offshore\nwind"
    onwind: "onshore\nwind"
    # OCGT: "Gas"
    H2: "Hydrogen\nstorage"
    # OCGT marginal: "Gas (marginal)"
    lines: "transmission\nlines"
    ror: "run of river"