config.yaml

# SPDX-FileCopyrightText: : 2022 The PyPSA-China Authors
#
# SPDX-License-Identifier: CC0-1.0

version: 0325.175.1H
logging_level: INFO
foresight: "myopic"

results_dir: 'results/'
summary_dir: 'summary/'

scenario:
  line_limits: [ 'opt' ]
  pathway: ['exponential175','beta25175']
  topology: "current+Neighbor" # "current" or "FCG" or "current+FCG" or "current+Neighbor"
  co2_reduction:
    exponential175:
      '2020': 0.0
      '2025': 0.22623418
      '2030': 0.41175086
      '2035': 0.56387834
      '2040': 0.688626
      '2045': 0.79092165
      '2050': 0.87480618
      '2055': 0.94359322
      '2060': 1.0
    linear175:
      '2020': 0.
      '2025': 0.16666667
      '2030': 0.33333333
      '2035': 0.5
      '2040': 0.66666667
      '2045': 0.83333333
      '2050': 1.0
      '2055': 1.0
      '2060': 1.0
    beta05175:
      '2020': 0.
      '2025': 0.41489656
      '2030': 0.5139467
      '2035': 0.58764476
      '2040': 0.65150003
      '2045': 0.71196579
      '2050': 0.77403968
      '2055': 0.84573191
      '2060': 1.0
    beta25175:
      '2020': 0.0 #0.
      '2025': 0.05096974 #0.06949544
      '2030': 0.23251132 #0.27330722
      '2035': 0.5 #0.52741596
      '2040': 0.76748868 #0.75163934
      '2045': 0.94903026 #0.90276156
      '2050': 1.0 #0.97687314
      '2055': 1.0 #0.99829624
      '2060': 1.0 #1.0
    mean175:
      '2020': 0.
      '2025': 0.12193339
      '2030': 0.29252381
      '2035': 0.53193917
      '2040': 0.75766462
      '2045': 0.88664452
      '2050': 0.93740309
      '2055': 0.97179661
      '2060': 1.0
  opts: ['ll']
  attr: 'p_nom'
  planning_horizons:
    - 2020
    - 2025
    - 2030
    - 2035
    - 2040
    - 2045
    - 2050
    - 2055
    - 2060
  heating_demand: ['positive']

snapshots:
  start: "2020-01-01"
  end: "2021-01-01"
  inclusive: 'left'

tmin: '-01-01 00:00'
tmax: '-12-31 23:00'
freq: '1H'
frequency: 1.

logging:
  level: INFO
  format: '%(levelname)s:%(name)s:%(message)s'
  
enable:
  build_cutout: false
  retrieve_cutout: false
  retrieve_raster: false
  
atlite:
  nprocesses: 4
  show_progress: true
  cutouts:
   China-2020:
     module: era5
     dx: 0.25
     dy: 0.25

solar_thermal_angle: 45

Technique:
  solar: true
  onwind: true
  offwind: true

coal_cc: true
hydrogen_lines: true

existing_infrastructure: ['coal','CHP coal', 'CHP gas', 'OCGT','solar', 'solar thermal', 'onwind', 'offwind','coal boiler','ground heat pump','nuclear']

bus_suffix: [""," central heat"," decentral heat"," gas"," coal"]
bus_carrier: {
    "": "AC",
    " central heat": "heat",
    " decentral heat": "heat",
    " gas": "gas",
    " coal": "coal",
}

Techs:
  ## for add carriers
  vre_techs: [ "onwind","offwind","solar","solar thermal","hydroelectricity", "nuclear","biomass","heat pump","resistive heater","Sabatier","H2 CHP"]
  conv_techs: ["OCGT gas", "CHP gas", "gas boiler","coal boiler","coal power plant","CHP coal"]
  store_techs: ["H2","battery","water tanks","PHS"]


## add components
heat_coupling: True
add_gas: True
add_coal: True
add_biomass: True
add_hydro: True
add_H2: True
add_methanation: True

transmission_efficiency:
  DC:
    efficiency_static: 0.98
    efficiency_per_1000km: 0.977
  H2 pipeline:
    efficiency_static: 1
    efficiency_per_1000km: 0.979
    compression_per_1000km: 0.019

chp_parameters:
  eff_el: 0.3978
  eff_th: 0.5304

solar_cf_correction: 0.85
time_dep_hp_cop: True
tes_tau: 3.

renewable:
  onwind:
    cutout: China-2020
    resource:
      method: wind
      turbine: Vestas_V112_3MW
    capacity_per_sqkm: 3 # ScholzPhd Tab 4.3.1: 10MW/km^2
    potential: simple # or conservative
    natura: false
    clip_p_max_pu: 1.e-2
    min_p_nom_max: 1.e-2
  offwind:
    cutout: China-2020
    resource:
      method: wind
      turbine: NREL_ReferenceTurbine_5MW_offshore
    capacity_per_sqkm: 2 # ScholzPhd Tab 4.3.1: 20MW/km^2
    correction_factor: 0.8855
    potential: simple # or conservative
    natura: true
    max_depth: 50
    clip_p_max_pu: 1.e-2
    min_p_nom_max: 1.e-2
  solar:
    cutout: China-2020
    resource:
      method: pv
      panel: CSi
      orientation:
        slope: 35.
        azimuth: 180.
    capacity_per_sqkm: 5.1 # ScholzPhd Tab 4.3.1: 170 MW/km^2 3%
    potential: simple # or conservative
    correction_factor: 0.85
    natura: false
    clip_p_max_pu: 1.e-2
    min_p_nom_max: 1.e-2

electricity:
  voltages: [220., 300., 380.]
  co2limit: 7.75e+7 # 0.05 * 3.1e9*0.5
  co2base: 1.487e+9
  agg_p_nom_limits: data/agg_p_nom_minmax.csv

  extendable_carriers:
    Generator: []
    StorageUnit: [] # battery, H2
    Store: [battery, H2]
    Link: []

  max_hours:
    battery: 6
    H2: 168

  powerplants_filter: false # use pandas query strings here, e.g. Country not in ['Germany']
  custom_powerplants: false # use pandas query strings here, e.g. Country in ['Germany']
  conventional_carriers: [nuclear, oil, OCGT, CCGT, coal, lignite, geothermal, biomass]
  renewable_capacities_from_OPSD: [] # onwind, offwind, solar

  # estimate_renewable_capacities_from_capacity_stats:
  #   # Wind is the Fueltype in ppm.data.Capacity_stats, onwind, offwind-{ac,dc} the carrier in PyPSA-Eur
  #   Wind: [onwind, offwind-ac, offwind-dc]
  #   Solar: [solar]

hydro:
  hydro_capital_cost: True
  PHS_max_hours: 24.

costs:
  year: 2030
  lifetime: 25
  discountrate: 0.02 # social discountrate
  USD2013_to_EUR2013: 0.9189 # [EUR/USD] ECB: https://www.ecb.europa.eu/stats/exchange/eurofxref/html/eurofxref-graph-usd.en.html
  marginal_cost: # EUR/MWh
    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: # in currency per tonne emission, only used with the option Ep
    co2: 0.


plot: True
plotting:
  map:
    figsize: [14, 8]
    boundaries: [71, 135., 0, 56.]
    cost_size_factor: 1.5e+10
    bus_size_factor: 1.e+5
    linewidth_factor: 6.e+3
    bus_size_factor_demand: 2.e+7
    bus_size_factor_heat: 5.e+4
    linewidth_factor_heat: 5.e+4

  costs_max: 500
  costs_avg: 50
  costs_threshold: 1000
  costs_plots_threshold: 20

  energy_max: 25000.
  energy_min: 0.
  energy_threshold: 50.
  loads: ['electricity', 'decentral heat', 'central heat']
  vre_techs: [ "onwind", "offwind", "solar"]
  conv_techs: [ "gas", "gas-heat", "gas-AC", "AC-gas", "coal", "coal-AC","solar thermal","AC-heat","AC-AC","stations-AC","uranium", "H2-AC", "H2-gas",]
  storage_techs: [ "hydro+PHS", "battery", "AC-battery", "H2", "AC-H2" , "AC-heat"]

  tech_colors:
    blank: "white"
    # wind
    wind: "#235ebc"
    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" #'#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'
    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'
    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 power plant: '#545454'
    coal boiler: '#787575'
    Coal marginal: '#545454'
    solid: '#545454'
    Lignite: '#826837'
    lignite: '#826837'
    Lignite marginal: '#826837'
    # biomass
    biogas: '#e3d37d'
    biomass: '#baa741'
    biomass CHP: '#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 CHP CC: '#6c5d28'
    biomass carbon capture: '#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 demand: '#cc1f1f'
    rural heat: '#ff5c5c'
    residential rural heat: '#ff7c7c'
    services rural heat: '#ff9c9c'
    central heat: '#cc1f1f'
    urban central heat: '#d15959'
    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'
    CHP coal: '#8a5751'
    CHP coal generator: '#8a5751'
    CHP coal boiler: '#8a7f7d'
    urban central gas CHP: '#8f6e6a'
    CHP gas: '#8f6e6a'
    CHP gas generator: '#8f6e6a'
    CHP gas boiler: '#8f6e6a'
    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'
    coal carbon capture: '#8487e8'
    coal power plant retrofit: '#8487e8'
    building retrofitting: '#8487e8'
    # hydrogen
    H2 for industry: "#f073da"
    H2 for shipping: "#ebaee0"
    H2: '#bf13a0'
    hydrogen: '#bf13a0'
    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 CHP: '#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'
    helmeth: '#e899ff'
    # 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: '#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'
    coal-to-heat: '#545454'
    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"
  nice_names:
    AC-AC: "Electric grid"
    H2-AC: "H2 Fuel Cell"
    AC-H2: "H2 Electrolysis"
    H2-gas: "Sabatier + DAC"
    AC-battery: "Battery Charger"
    CHP: "Combined Heat and Power"
    OCGT: "Open-Cycle Gas"
    CCGT: "Combined-Cycle Gas"
    offwind: "Offshore Wind"
    onwind: "Onshore Wind"
    solar: "Solar"
    coal: "Coal Power Plant"
    coal-AC: "Combined Heat and Power"
    coal-heat: "Coal Boiler"
    gas-AC: "Open-Cycle Gas"
    PHS: "Pumped Hydro Storage"
    stations-AC: "Reservoir & Dam"
    hydro: "Reservoir & Dam"
    battery: "Battery Storage"
    H2: "Hydrogen Storage"
    lines: "Transmission Lines"
    ror: "Run of River"
    AC-heat: "Heat Pump"
    heat pump: "Heat Pump"
    solar thermal: "Solar Thermal"
    uranium: "Nuclear"
    energy:
      coal: "Coal"
      offwind: "Offshore Wind"
      onwind: "Onshore Wind"
      solar: "Solar"
      solar thermal: "Solar Thermal"


solving:
  options:
#    clip_p_max_pu: 1.e-2
#    load_shedding: false
#    transmission_losses: 0
#    noisy_costs: false
#    skip_iterations: true
#    track_iterations: false
#    min_iterations: 4
#    max_iterations: 6
#    seed: 123
    formulation: kirchhoff
    load_shedding: false
    noisy_costs: false
    min_iterations: 4
    max_iterations: 6
    clip_p_max_pu: 0.01
    skip_iterations: false
    track_iterations: false

  solver:
    name: gurobi
    options: gurobi-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-5
      FeasibilityTol: 1.e-6
      AggFill: 0
      PreDual: 0
      GURO_PAR_BARDENSETHRESH: 200
      DualReductions: 0
#      threads: 4
#      method: 2 # barrier
#      crossover: 0
#      BarConvTol: 1.e-6
#      Seed: 123
#      AggFill: 0
#      PreDual: 0
#      GURO_PAR_BARDENSETHRESH: 200
#      seed: 10              # Consistent seed for all plattforms
    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
    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

no_lines: False
line_volume_limit_max: 5.e+15   #line_volume_limit is set = factor * max
line_cost_factor: 1

existing_capacities:
  grouping_years: [1980,1985, 1990, 1995, 2000, 2005, 2010, 2015, 2019, 2020, 2025, 2030, 2035, 2040, 2045, 2050, 2055, 2060]
  threshold_capacity: 1