version: 0.1 logging_level: INFO scenario: sectors: [E] # ,E+EV,E+BEV,E+BEV+V2G] # [ E+EV, E+BEV, E+BEV+V2G ] cost: [diw2030] lv: [1., 1.125, 1.25, 1.5, 2.0, 3.0] opts: [Co2L, Co2L-T] #, LC-FL, LC-T, Ep-T, Co2L-T] countries: ['AL', 'AT', 'BA', 'BE', 'BG', 'CH', 'CZ', 'DE', 'DK', 'EE', 'ES', 'FI', 'FR', 'GB', 'GR', 'HR', 'HU', 'IE', 'IT', 'LT', 'LU', 'LV', 'ME', 'MK', 'NL', 'NO', 'PL', 'PT', 'RO', 'RS', 'SE', 'SI', 'SK'] historical_year: "2012" electricity: voltages: [220., 300., 380.] co2limit: xxx extendable_carriers: Generator: [OCGT] StorageUnit: [Battery, H2] # [CAES] SAFE_reservemargin: 0.1 max_hours: Battery: 3 H2: 10 reanalysis: cutout: europe_2011_2016 landusetype_percent: wind: - [[7, 8, 9, 41], 80] # - [[5, 6], 50] # - [[11, 12, 14, 15], 10] solar: - [[7, 8, 9, 41], 80] # - [[11, 12, 14, 15], 50] # - [[46, 47, 51, 56, 64, 68, 72], 10] capacity_per_sqm: wind: 5 # half of 10 (IWES) solar: 16.5 # half of 33 (IWES) lines: types: 220.: "Al/St 240/40 2-bundle 220.0" 300.: "Al/St 240/40 3-bundle 300.0" 380.: "Al/St 240/40 4-bundle 380.0" s_max_pu: 0.7 length_factor: 1.25 links: s_max_pu: 0.7 transformers: x: 0.1 s_nom: 2000. type: '' costs: discountrate: 0.07 # Marginal and capital costs can be overwritten # capital_cost: # Wind: Bla marginal_cost: # PV: 0.01 Wind: 0.015 EUR_to_ZAR: 15.63 emission_prices: # only used with the option Ep (emission prices) # Externality costs from Integrated Energy Plan by the ZA DOE co2: 0.27e+3 sox: 7.6e+3 nox: 4.5e+3 hg: 41484.e-6 # is also part of the excel sheet particulate: 11.3e+3 solving: options: formulation: kirchhoff clip_p_max_pu: 1.e-2 load_shedding: true noisy_costs: true min_iterations: 4 max_iterations: 8 # max_iterations: 1 # nhours: 10 solver: name: gurobi_persistent threads: 4 method: 2 crossover: 0 # -1 (Choose freely) BarConvTol: 1.e-5 FeasibilityTol: 1.e-6 LogToConsole: 0 OutputFlag: 1 plotting: map: figsize: [7, 7] boundaries: [16, -35, 33, -22] p_nom: bus_size_factor: 5.e+4 linewidth_factor: 3.e+3 # 1.e+3 #3.e+3 costs_max: 800 vre_techs: ["Wind", "PV"] conv_techs: ["OCGT", "CCGT", "Nuclear", "Coal"] storage_techs: ["Hydro", "CAES", "Battery", "Pumped storage", "Hydro+PS"] 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: Wind: "xkcd:azure" Hydro: "g" ror: "g" Hydro+PS: "g" PV: "y" OCGT: "brown" OCGT marginal: "sandybrown" OCGT-heat: "orange" central gas boiler: "orange" gas boiler: "orange" gas boilers: "orange" gas boiler marginal: "orange" gas: "brown" lines: "k" AC line: "k" AC-AC: "k" transmission lines: "k" H2: "m" hydrogen storage: "m" Battery: "slategray" battery storage: "slategray" CAES: "lightgray" Nuclear: "r" Nuclear marginal: "r" Coal: "k" Coal marginal: "k" Lignite: "grey" Lignite marginal: "grey" CCGT: "orange" CCGT marginal: "orange" Diesel: "darkred" Diesel marginal: "darkred" heat pumps: "green" heat pump: "green" central heat pump: "green" resistive heater: "pink" central resistive heater: "pink" Sabatier: "turquoise" water tanks: "w" CHP: "r" CHP heat: "r" CHP electric: "r" central CHP heat: "r" central CHP electric: "r" Pumped storage: "g" Ambient: "k" AC load: "b" Heat load: "r" Li ion load: "grey" heat: "r" Li ion: "grey" district heating: "#CC4E5C" nice_names: # OCGT: "Gas" # OCGT marginal: "Gas (marginal)" #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"