Present 0 0 0
Future 0 0 0
Edges 0 Outputs
0.5 %
Node MJ Type
energy_production_aggregator_mt_steam_hot_water 0 Flexible
Reversed
99.5 %
Inputs Edges 0
100.0 %
Type MJ Node
Share 0 energy_power_mv_distribution_network_electricity
Edges 0 Outputs
0.5 %
Node MJ Type
energy_production_aggregator_mt_steam_hot_water 0 Flexible
Reversed
99.5 %
Inputs Edges 0
100.0 %
Type MJ Node
Share 0 energy_power_mv_distribution_network_electricity

Details

Sector energy
Use energetic
Heat network (MT)
group
self: electricity_input_curve
subtype
must_run
type
producer
Merit Order
level
mv
subtype
generic
type
flex
Storage
cost_per_mwh
0.0
decay
0.0
volume
50.0
Node groups
  1. heat_production
  2. central_production
  3. mv_net_flexibility
  4. p2h
  5. wacc_proven_tech
  6. costs_storage_and_conversion_p2h
  7. sankey_conversion_group
Used in Gqueries
  1. energy_heat_flexibility_p2h_boiler_electricity_mt_steam_hot_water_output_curve
  2. energy_heat_flexibility_p2h_boiler_mt_electricity_capacity
  3. energy_heat_flexibility_p2h_boiler_mt_electricity_flhs
  4. energy_heat_flexibility_p2h_boiler_mt_electricity_input
  5. energy_heat_flexibility_p2h_boiler_mt_electricity_input_curve
  6. energy_heat_flexibility_p2h_boiler_mt_electricity_output
  7. energy_heat_flexibility_p2h_boiler_mt_electricity_output_of_steam_hot_water
  8. energy_heat_flexibility_p2h_boiler_mt_electricity_peak_capacity
  9. factsheet_share_of_other_in_collective_heat_sources
  10. p2h_boiler_mt_capacity_in_flexible_demand_economic_performance_table
  11. p2h_boiler_mt_capex_in_flexible_demand_economic_performance_table
  12. p2h_boiler_mt_full_load_hours_in_flexible_demand_economic_performance_table
  13. p2h_boiler_mt_opex_in_flexible_demand_economic_performance_table
  14. p2h_boiler_mt_wtp_in_flexible_demand_economic_performance_table
Used in Inputs
  1. capacity_of_energy_heat_flexibility_p2h_boiler_electricity
  2. investment_costs_flexibility_p2h_electricity
  3. share_of_energy_heat_flexibility_p2h_boiler_ht_electricity
  4. share_of_energy_heat_flexibility_p2h_boiler_mt_electricity
  5. wtp_of_energy_heat_flexibility_p2h_boiler_electricity
Method Label Present Future Unit
technical
input_capacity * number_of_units Installed capacity 0 0 MWe
heat_output_conversion Heat efficiency 99.5 99.5 %
full_load_hours Full load hours 2,190 0 hour / year
cost
total_investment_over_lifetime_per(:mw_input_capacity) Investment over lifetime per MW input 59700 59700 EUR / MW
fixed_operation_and_maintenance_costs_per(:mw_input_capacity) Fixed operation and maintenance costs 995 995 EUR / MW / year
variable_operation_and_maintenance_costs_per_full_load_hour Variable operation and maintenance costs 25 25 EUR / full load hour
wacc Weighted average cost of capital 4.0 4.0 %
takes_part_in_ets Do emissions have to be paid through the ETS? false false boolean
other
technical_lifetime Technical lifetime 15 15 years
Node Attributes Present Future Change Unit
operational
electricity_output_capacity 00{:class=>"change"}MWe
heat_output_capacity 5050{:class=>"change"}MWth
hydrogen_output_capacity 00{:class=>"change"}MW
free_co2_factor 00{:class=>"change"}
ccs_capture_rate --{:class=>"change"}
construction_time 00{:class=>"change"}
electrical_efficiency_when_using_coal --{:class=>"change"}
electrical_efficiency_when_using_wood_pellets --{:class=>"change"}
full_load_hours 2,1900{:class=>"change"}
households_supplied_per_unit --{:class=>"change"}
land_use_per_unit --{:class=>"change"}
takes_part_in_ets 00{:class=>"change"}yes=1 / no=0
technical_lifetime 1515{:class=>"change"}year
typical_input_capacity 50.2550.25{:class=>"change"}MWinput
output_capacity --{:class=>"change"}MW
input_efficiency --{:class=>"change"}
output_efficiency --{:class=>"change"}
cost
initial_investment 3,000 K3,000 K{:class=>"change"}euro / unit
ccs_investment 00{:class=>"change"}euro / unit
cost_of_installing 00{:class=>"change"}euro / unit
decommissioning_costs 00{:class=>"change"}euro / unit
fixed_operation_and_maintenance_costs_per_year 50,00050,000{:class=>"change"}euro / unit / year
variable_operation_and_maintenance_costs_per_full_load_hour 2525{:class=>"change"}euro / full load hour
variable_operation_and_maintenance_costs_for_ccs_per_full_load_hour 00{:class=>"change"}euro / full load hour
fixed_costs_per_mw_input_capacity --{:class=>"change"}euro / MWinput
costs_per_mj --{:class=>"change"}
wacc 0.040.04{:class=>"change"}
profitability --{:class=>"change"}profitable / unprofitable / conditionally_profitable
profit_per_mwh_electricity --{:class=>"change"}eur/MWh
marginal_costs --{:class=>"change"}euro / MWh
max_consumption_price 1919{:class=>"change"}euro / MWh
capital_expenditures 260 K260 K{:class=>"change"}euro / unit / year
operating_expenses 105 K50,000{:class=>"change"}euro / unit / year
operating_expenses_including_fuel 105 K50,000{:class=>"change"}euro / unit / year
revenue 00{:class=>"change"}euro / unit / year
merit_order
merit_order_full_load_hours --{:class=>"change"}
merit_order_capacity_factor --{:class=>"change"}
merit_order_position --{:class=>"change"}
security_of_supply
availability 0.990.99{:class=>"change"}
part_load_operating_point --{:class=>"change"}
part_load_efficiency_penalty --{:class=>"change"}
forecasting_error --{:class=>"change"}
misc
demand_expected_value 00{:class=>"change"}
excel_id --{:class=>"change"}
max_demand --{:class=>"change"}
Node Calculations Present Future Change Unit
demand
demand 00{:class=>"change"}
preset_demand --{:class=>"change"}
demand_of_sustainable 00{:class=>"change"}
weighted_carrier_cost_per_mj 0.0030.003{:class=>"change"}
weighted_carrier_co2_per_mj 00{:class=>"change"}
sustainability_share 0.2140.158{:class=>"change"}
final_demand 00{:class=>"change"}
primary_demand 00{:class=>"change"}
primary_demand_of_fossil 00{:class=>"change"}
primary_demand_of_sustainable 00{:class=>"change"}
technical
input_capacity 50.2550.25{:class=>"change"}
electric_based_input_capacity --{:class=>"change"}MWinput
heat_based_input_capacity 50.2550.25{:class=>"change"}MWinput
cooling_based_input_capacity --{:class=>"change"}MWinput
number_of_units 00{:class=>"change"}
costs_per_plant
total_costs_per(:plant) 1,596 K310 K{:class=>"change"}euro / plant
fixed_costs_per(:plant) 310 K310 K{:class=>"change"}
cost_of_capital_per(:plant) 60,00060,000{:class=>"change"}
depreciation_costs_per(:plant) 200 K200 K{:class=>"change"}
variable_costs_per(:plant) 1,286 K0{:class=>"change"}
fuel_costs_per(:plant) 00{:class=>"change"}
co2_emissions_costs_per(:plant) 00{:class=>"change"}
captured_biogenic_co2_costs_per(:plant) 00{:class=>"change"}
fixed_operation_and_maintenance_costs_per(:plant) 50,00050,000{:class=>"change"}
variable_operation_and_maintenance_costs_per(:plant) 54,7500{:class=>"change"}
total_initial_investment_per(:plant) 3,000 K3,000 K{:class=>"change"}
costs_per_node
total_costs_per(:node) 00{:class=>"change"}
fixed_costs_per(:node) 00{:class=>"change"}
cost_of_capital_per(:node) 00{:class=>"change"}
depreciation_costs_per(:node) 00{:class=>"change"}
variable_costs_per(:node) 00{:class=>"change"}
fuel_costs_per(:node) 00{:class=>"change"}
co2_emissions_costs_per(:node) 00{:class=>"change"}
captured_biogenic_co2_costs_per(:node) 00{:class=>"change"}
fixed_operation_and_maintenance_costs_per(:node) 00{:class=>"change"}
variable_operation_and_maintenance_costs_per(:node) 00{:class=>"change"}
total_initial_investment_per(:node) 00{:class=>"change"}
costs_per_mw_electricity
total_costs_per(:mw_electricity) 00{:class=>"change"}
fixed_costs_per(:mw_electricity) 00{:class=>"change"}
cost_of_capital_per(:mw_electricity) 00{:class=>"change"}
depreciation_costs_per(:mw_electricity) 00{:class=>"change"}
variable_costs_per(:mw_electricity) 0NaN{:class=>"change"}
fuel_costs_per(:mw_electricity) NaNNaN{:class=>"change"}
co2_emissions_costs_per(:mw_electricity) NaNNaN{:class=>"change"}
captured_biogenic_co2_costs_per(:mw_electricity) NaNNaN{:class=>"change"}
fixed_operation_and_maintenance_costs_per(:mw_electricity) 00{:class=>"change"}
variable_operation_and_maintenance_costs_per(:mw_electricity) 0NaN{:class=>"change"}
total_initial_investment_per(:mw_electricity) 00{:class=>"change"}
costs_per_mwh_electricity
total_costs_per(:mwh_electricity) 00{:class=>"change"}
fixed_costs_per(:mwh_electricity) 00{:class=>"change"}
cost_of_capital_per(:mwh_electricity) 00{:class=>"change"}
depreciation_costs_per(:mwh_electricity) 00{:class=>"change"}
variable_costs_per(:mwh_electricity) 0NaN{:class=>"change"}
fuel_costs_per(:mwh_electricity) NaNNaN{:class=>"change"}
co2_emissions_costs_per(:mwh_electricity) NaNNaN{:class=>"change"}
captured_biogenic_co2_costs_per(:mwh_electricity) NaNNaN{:class=>"change"}
fixed_operation_and_maintenance_costs_per(:mwh_electricity) 00{:class=>"change"}
variable_operation_and_maintenance_costs_per(:mwh_electricity) 0NaN{:class=>"change"}
total_initial_investment_per(:mwh_electricity) 00{:class=>"change"}
costs_per_mw_heat
total_costs_per(:mw_heat) 31,923.96,200{:class=>"change"}
fixed_costs_per(:mw_heat) 6,2006,200{:class=>"change"}
cost_of_capital_per(:mw_heat) 1,2001,200{:class=>"change"}
depreciation_costs_per(:mw_heat) 4,0004,000{:class=>"change"}
variable_costs_per(:mw_heat) 25,723.90{:class=>"change"}
fuel_costs_per(:mw_heat) 00{:class=>"change"}
co2_emissions_costs_per(:mw_heat) 00{:class=>"change"}
captured_biogenic_co2_costs_per(:mw_heat) 00{:class=>"change"}
fixed_operation_and_maintenance_costs_per(:mw_heat) 1,0001,000{:class=>"change"}
variable_operation_and_maintenance_costs_per(:mw_heat) 1,0950{:class=>"change"}
total_initial_investment_per(:mw_heat) 60,00060,000{:class=>"change"}
costs_per_mwh_heat
total_costs_per(:mwh_heat) 14.580{:class=>"change"}
fixed_costs_per(:mwh_heat) 2.830{:class=>"change"}
cost_of_capital_per(:mwh_heat) 0.5480{:class=>"change"}
depreciation_costs_per(:mwh_heat) 1.830{:class=>"change"}
variable_costs_per(:mwh_heat) 11.75NaN{:class=>"change"}
fuel_costs_per(:mwh_heat) 0NaN{:class=>"change"}
co2_emissions_costs_per(:mwh_heat) 0NaN{:class=>"change"}
captured_biogenic_co2_costs_per(:mwh_heat) 0NaN{:class=>"change"}
fixed_operation_and_maintenance_costs_per(:mwh_heat) 0.4570{:class=>"change"}
variable_operation_and_maintenance_costs_per(:mwh_heat) 0.5NaN{:class=>"change"}
total_initial_investment_per(:mwh_heat) 27.40{:class=>"change"}