ETEngine Production

households_water_heater_hybrid_heatpump_air_water_electricity

Energy Graph View document Visualize present graph Visualize future graph
Present 62.77 M 62.77 M 62.77 M
Future 61.05 M 61.05 M 67.84 M
-2.73%
Edges 62.77 M Outputs
Cooling
0.0 %
Loss
2.73 %
Node MJ Type
households_water_heater_hybrid_heatpump_air_water_electricity_aggregator
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61.05 M Share
Useable heat
97.27 %
Inputs Edges 62.77 M
Ambient heat
54.54 %
Type MJ Node
Share 34.24 M environment_air_ambient_heat
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Electricity
18.18 %
Type MJ Node
Share 11.41 M households_final_demand_for_hot_water_electricity
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Network gas
27.28 %
Type MJ Node
Share 17.12 M households_final_demand_for_hot_water_network_gas
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Edges 61.05 M Outputs
Cooling
0.0 %
Loss
0.0 %
Node MJ Type
households_water_heater_hybrid_heatpump_air_water_electricity_aggregator
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61.05 M Share
Useable heat
100.0 %
Inputs Edges 67.84 M
Ambient heat
0.0 %
Type MJ Node
Share 0 environment_air_ambient_heat
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Electricity
0.0 %
Type MJ Node
Share 0 households_final_demand_for_hot_water_electricity
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Network gas
111.11 %
Type MJ Node
Share 67.84 M households_final_demand_for_hot_water_network_gas
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Details

Sector households
Use energetic
Fever (Heat)
base_cop
1.86
capacity
electricity: 0.001294498 network_gas: 0.022
cop_cutoff
6.0
cop_per_degree
0.043
efficiency_balanced_with
ambient_heat
efficiency_based_on
electricity
group
households_hot_water
share_in_group
0.0014585682141231371
technology_curve_type
default
type
producer
Network Gas
profile
self: network_gas_input_curve
type
consumer
Node groups
  1. demand_driven
  2. heat_production
  3. etmoses
  4. merit_household_hot_water_producers
  5. application_group
  6. aggregator_producer
  7. lv_net_demand
  8. wacc_households
  9. merit_order_csv_include
  10. costs_building_and_installations_households
Used in Gqueries
  1. biggest_water_heater_share_name
  2. biggest_water_heater_share_value
  3. households_water_heater_hybrid_heatpump_air_water_electricity_base_cop
  4. households_water_heater_hybrid_heatpump_air_water_electricity_cop
  5. households_water_heater_hybrid_heatpump_air_water_electricity_cop_per_degree
  6. households_water_heater_hybrid_heatpump_air_water_electricity_input_of_electricity
  7. households_water_heater_hybrid_heatpump_air_water_electricity_input_of_network_gas
  8. households_water_heater_hybrid_heatpump_air_water_electricity_number_of_units
  9. households_water_heater_hybrid_heatpump_air_water_electricity_output_of_useable_heat
  10. households_water_heater_hybrid_heatpump_electricity_input_curve
  11. households_water_heater_hybrid_heatpump_heat_output_share_network_gas
  12. households_water_heater_hybrid_heatpump_network_gas_input_curve
  13. total_cost_of_households_water_heater_hybrid_heatpump_air_water_electricity
  14. turk_full_load_hours_of_households_water_heater_hybrid_heatpump_air_water_electricity
  15. turk_number_of_units_of_households_water_heater_hybrid_heatpump_air_water_electricity
Used in Inputs
  1. flexibility_heat_pump_water_heating_cop_cutoff
  2. households_heater_hybrid_heatpump_air_water_electricity_heat_output_capacity
  3. households_heater_hybrid_heatpump_air_water_electricity_share
  4. investment_costs_electric_heat_pumps
  5. investment_costs_households_storage_water_heating

Node Summary

Method Label Present Future Unit
technical
coefficient_of_performance Coefficient of Performance 4 1 COP
heat_output_capacity Heat capacity per unit 0.005 0.005 MW / unit
full_load_hours Full load hours 299 299 hour / year
cost
total_investment_over_lifetime_per(:plant) Investment over lifetime per plant 0 0 EUR / unit
fixed_operation_and_maintenance_costs_per(:plant) Fixed operation and maintenance costs 0 0 EUR / unit / year
variable_operation_and_maintenance_costs_per(:full_load_hour) Variable operation and maintenance costs 0 0 EUR / full load hour
wacc Weighted average cost of capital 2.0 2.0 %
takes_part_in_ets Do emissions have to be paid through the ETS? false false boolean
other
technical_lifetime Technical lifetime 15 15 years

All Attributes

Node Attributes Present Future Change Unit
operational
electricity_output_capacity 0 0 MWe
heat_output_capacity 0.005 0.005 0% MWth
hydrogen_output_capacity 0 0 MW
free_co2_factor 0 0
ccs_capture_rate - -
construction_time 0 0
electrical_efficiency_when_using_coal - -
electrical_efficiency_when_using_wood_pellets - -
full_load_hours 299 299 0%
households_supplied_per_unit 1 1 0%
land_use_per_unit - -
takes_part_in_ets 0 0 yes=1 / no=0
technical_lifetime 15 15 0% year
typical_input_capacity - - MWinput
output_capacity - - MW
input_efficiency - -
output_efficiency - -
cost
initial_investment 0 0 euro / unit
ccs_investment 0 0 euro / unit
cost_of_installing 0 0 euro / unit
decommissioning_costs 0 0 euro / unit
fixed_operation_and_maintenance_costs_per_year 0 0 euro / unit / year
variable_operation_and_maintenance_costs_per_full_load_hour 0 0 euro / full load hour
variable_operation_and_maintenance_costs_for_ccs_per_full_load_hour 0 0 euro / full load hour
fixed_costs_per_mw_input_capacity - - euro / MWinput
costs_per_mj - -
wacc 0.02 0.02 0%
profitability - - profitable / unprofitable / conditionally_profitable
profit_per_mwh_electricity - - eur/MWh
marginal_costs - - euro / MWh
max_consumption_price - - euro / MWh
merit_order
merit_order_full_load_hours - -
merit_order_capacity_factor - -
merit_order_position - -
security_of_supply
availability 0 0
part_load_operating_point - -
part_load_efficiency_penalty - -
forecasting_error - -
misc
demand_expected_value 62.77 M 62.77 M 0%
excel_id - -
max_demand - -

All Calculations

Node Calculations Present Future Change Unit
demand
demand 62.77 M 61.05 M -2%
preset_demand - -
demand_of_sustainable 0 0
weighted_carrier_cost_per_mj 0.002 0.004 177%
weighted_carrier_co2_per_mj 0.015 0.062 307%
sustainability_share 0.601 0.005 -99%
final_demand 28.53 M 67.84 M 137%
primary_demand 38.1 M 68.8 M 80%
primary_demand_of_fossil 15.21 M 68.48 M 350%
primary_demand_of_sustainable 22.89 M 315 K -98%
primary_demand_of_wood_pellets 729 K 0 -100%
primary_demand_of_biogas 185 K 312 K 68%
primary_demand_of_electricity 2,807 K 0 -100%
primary_demand_of_coal 5,201 K 0 -100%
primary_demand_of_lng 380 K 997 K 162%
primary_demand_of_natural_gas 25.69 M 67.49 M 162%
primary_demand_of_biogenic_waste 678 K 0 -100%
primary_demand_of_non_biogenic_waste 601 K 0 -100%
primary_demand_of_uranium_oxide 1,392 K 0 -100%
primary_demand_of_imported_electricity 435 K 0 -100%
technical
input_capacity 0.005 0.005 -2%
electric_based_input_capacity - - MWinput
heat_based_input_capacity 0.005 0.005 -2% MWinput
cooling_based_input_capacity - - MWinput
number_of_units 11,576.5 11,576.5 0%
costs_per_plant
total_costs_per(:plant) 8.58 23.16 169% euro / plant
fixed_costs_per(:plant) 0 0
cost_of_capital_per(:plant) 0 0
depreciation_costs_per(:plant) 0 0
variable_costs_per(:plant) 8.58 23.16 169%
fuel_costs_per(:plant) 8.58 23.16 169%
co2_emissions_costs_per(:plant) 0 0
captured_biogenic_co2_costs_per(:plant) 0 0
fixed_operation_and_maintenance_costs_per(:plant) 0 0
variable_operation_and_maintenance_costs_per(:plant) 0 0
total_initial_investment_per(:plant) 0 0
costs_per_node
total_costs_per(:node) 99,375.7 268 K 169%
fixed_costs_per(:node) 0 0
cost_of_capital_per(:node) 0 0
depreciation_costs_per(:node) 0 0
variable_costs_per(:node) 99,375.7 268 K 169%
fuel_costs_per(:node) 99,375.7 268 K 169%
co2_emissions_costs_per(:node) 0 0
captured_biogenic_co2_costs_per(:node) 0 0
fixed_operation_and_maintenance_costs_per(:node) 0 0
variable_operation_and_maintenance_costs_per(:node) 0 0
total_initial_investment_per(:node) 0 0
costs_per_mw_electricity
total_costs_per(:mw_electricity) 0 0
fixed_costs_per(:mw_electricity) NaN NaN
cost_of_capital_per(:mw_electricity) NaN NaN
depreciation_costs_per(:mw_electricity) NaN NaN
variable_costs_per(:mw_electricity) 0 0
fuel_costs_per(:mw_electricity) 0 0
co2_emissions_costs_per(:mw_electricity) NaN NaN
captured_biogenic_co2_costs_per(:mw_electricity) NaN NaN
fixed_operation_and_maintenance_costs_per(:mw_electricity) NaN NaN
variable_operation_and_maintenance_costs_per(:mw_electricity) NaN NaN
total_initial_investment_per(:mw_electricity) NaN NaN
costs_per_mwh_electricity
total_costs_per(:mwh_electricity) 0 0
fixed_costs_per(:mwh_electricity) NaN NaN
cost_of_capital_per(:mwh_electricity) NaN NaN
depreciation_costs_per(:mwh_electricity) NaN NaN
variable_costs_per(:mwh_electricity) 0 0
fuel_costs_per(:mwh_electricity) 0 0
co2_emissions_costs_per(:mwh_electricity) NaN NaN
captured_biogenic_co2_costs_per(:mwh_electricity) NaN NaN
fixed_operation_and_maintenance_costs_per(:mwh_electricity) NaN NaN
variable_operation_and_maintenance_costs_per(:mwh_electricity) NaN NaN
total_initial_investment_per(:mwh_electricity) NaN NaN
costs_per_mw_heat
total_costs_per(:mw_heat) 1,751.9 4,726.2 169%
fixed_costs_per(:mw_heat) 0 0
cost_of_capital_per(:mw_heat) 0 0
depreciation_costs_per(:mw_heat) 0 0
variable_costs_per(:mw_heat) 1,751.9 4,726.2 169%
fuel_costs_per(:mw_heat) 1,751.9 4,726.2 169%
co2_emissions_costs_per(:mw_heat) 0 0
captured_biogenic_co2_costs_per(:mw_heat) 0 0
fixed_operation_and_maintenance_costs_per(:mw_heat) 0 0
variable_operation_and_maintenance_costs_per(:mw_heat) 0 0
total_initial_investment_per(:mw_heat) 0 0
costs_per_mwh_heat
total_costs_per(:mwh_heat) 5.86 15.81 169%
fixed_costs_per(:mwh_heat) 0 0
cost_of_capital_per(:mwh_heat) 0 0
depreciation_costs_per(:mwh_heat) 0 0
variable_costs_per(:mwh_heat) 5.86 15.81 169%
fuel_costs_per(:mwh_heat) 5.86 15.81 169%
co2_emissions_costs_per(:mwh_heat) 0 0
captured_biogenic_co2_costs_per(:mwh_heat) 0 0
fixed_operation_and_maintenance_costs_per(:mwh_heat) 0 0
variable_operation_and_maintenance_costs_per(:mwh_heat) 0 0
total_initial_investment_per(:mwh_heat) 0 0