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revert to old config keys (#1152)

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* revert to old config keys

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Micha 2024-07-12 16:22:53 +02:00 committed by GitHub
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4 changed files with 25 additions and 35 deletions
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13
config/config.default.yaml
View File

@ -571,13 +571,12 @@ sector:
min_part_load_fischer_tropsch: 0.5
min_part_load_methanolisation: 0.3
min_part_load_methanation: 0.3
use_waste_heat:
fischer_tropsch: 0.25
haber_bosch: 0.25
methanolisation: 0.25
methanation: 0.25
fuel_cell: 0.25
electrolysis: 0.25
use_fischer_tropsch_waste_heat: 0.25
use_haber_bosch_waste_heat: 0.25
use_methanolisation_waste_heat: 0.25
use_methanation_waste_heat: 0.25
use_fuel_cell_waste_heat: 0.25
use_electrolysis_waste_heat: 0.25
electricity_transmission_grid: true
electricity_distribution_grid: true
electricity_distribution_grid_cost_factor: 1.0

2
doc/release_notes.rst
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@ -12,7 +12,7 @@ Upcoming Release
* Changed default assumptions about waste heat usage from PtX and fuel cells in district heating.
The default value for the link efficiency scaling factor was changed from 100% to 25%.
It can be set to other values in the configuration ``sector: use_waste_heat:``.
It can be set to other values in the configuration ``sector: use_TECHNOLOGY_waste_heat``.
* In simplifying polygons in :mod:`build_shapes` default to no tolerance.

12
scripts/_helpers.py
View File

@ -644,12 +644,12 @@ def update_config_from_wildcards(config, w, inplace=True):
config["sector"]["H2_network"] = False
if "nowasteheat" in opts:
config["sector"]["use_waste_heat"]["fischer_tropsch"] = False
config["sector"]["use_waste_heat"]["methanolisation"] = False
config["sector"]["use_waste_heat"]["haber_bosch"] = False
config["sector"]["use_waste_heat"]["methanation"] = False
config["sector"]["use_waste_heat"]["fuel_cell"] = False
config["sector"]["use_waste_heat"]["electrolysis"] = False
config["sector"]["use_fischer_tropsch_waste_heat"] = False
config["sector"]["use_methanolisation_waste_heat"] = False
config["sector"]["use_haber_bosch_waste_heat"] = False
config["sector"]["use_methanation_waste_heat"] = False
config["sector"]["use_fuel_cell_waste_heat"] = False
config["sector"]["use_electrolysis_waste_heat"] = False
if "nodistrict" in opts:
config["sector"]["district_heating"]["progress"] = 0.0

33
scripts/prepare_sector_network.py
View File

@ -3342,7 +3342,7 @@ def add_waste_heat(n):
# TODO what is the 0.95 and should it be a config option?
if (
options["use_waste_heat"].get("fischer_tropsch", 1)
options["use_fischer_tropsch_waste_heat"]
and "Fischer-Tropsch" in link_carriers
):
n.links.loc[urban_central + " Fischer-Tropsch", "bus3"] = (
@ -3350,24 +3350,18 @@ def add_waste_heat(n):
)
n.links.loc[urban_central + " Fischer-Tropsch", "efficiency3"] = (
0.95 - n.links.loc[urban_central + " Fischer-Tropsch", "efficiency"]
) * options["use_waste_heat"].get("fischer_tropsch", 1)
) * options["use_fischer_tropsch_waste_heat"]
if (
options["use_waste_heat"].get("methanation", 1)
and "Sabatier" in link_carriers
):
if options["use_methanation_waste_heat"] and "Sabatier" in link_carriers:
n.links.loc[urban_central + " Sabatier", "bus3"] = (
urban_central + " urban central heat"
)
n.links.loc[urban_central + " Sabatier", "efficiency3"] = (
0.95 - n.links.loc[urban_central + " Sabatier", "efficiency"]
) * options["use_waste_heat"].get("methanation", 1)
) * options["use_methanation_waste_heat"]
# DEA quotes 15% of total input (11% of which are high-value heat)
if (
options["use_waste_heat"].get("haber_bosch", 1)
and "Haber-Bosch" in link_carriers
):
if options["use_haber_bosch_waste_heat"] and "Haber-Bosch" in link_carriers:
n.links.loc[urban_central + " Haber-Bosch", "bus3"] = (
urban_central + " urban central heat"
)
@ -3381,10 +3375,10 @@ def add_waste_heat(n):
)
n.links.loc[urban_central + " Haber-Bosch", "efficiency3"] = (
0.15 * total_energy_input / electricity_input
) * options["use_waste_heat"].get("haber_bosch", 1)
) * options["use_haber_bosch_waste_heat"]
if (
options["use_waste_heat"].get("methanolisation", 1)
options["use_methanolisation_waste_heat"]
and "methanolisation" in link_carriers
):
n.links.loc[urban_central + " methanolisation", "bus4"] = (
@ -3393,11 +3387,11 @@ def add_waste_heat(n):
n.links.loc[urban_central + " methanolisation", "efficiency4"] = (
costs.at["methanolisation", "heat-output"]
/ costs.at["methanolisation", "hydrogen-input"]
) * options["use_waste_heat"].get("methanolisation", 1)
) * options["use_methanolisation_waste_heat"]
# TODO integrate usable waste heat efficiency into technology-data from DEA
if (
options["use_waste_heat"].get("electrolysis", 1)
options["use_electrolysis_waste_heat"]
and "H2 Electrolysis" in link_carriers
):
n.links.loc[urban_central + " H2 Electrolysis", "bus2"] = (
@ -3405,18 +3399,15 @@ def add_waste_heat(n):
)
n.links.loc[urban_central + " H2 Electrolysis", "efficiency2"] = (
0.84 - n.links.loc[urban_central + " H2 Electrolysis", "efficiency"]
) * options["use_waste_heat"].get("electrolysis", 1)
) * options["use_electrolysis_waste_heat"]
if (
options["use_waste_heat"].get("fuel_cell", 1)
and "H2 Fuel Cell" in link_carriers
):
if options["use_fuel_cell_waste_heat"] and "H2 Fuel Cell" in link_carriers:
n.links.loc[urban_central + " H2 Fuel Cell", "bus2"] = (
urban_central + " urban central heat"
)
n.links.loc[urban_central + " H2 Fuel Cell", "efficiency2"] = (
0.95 - n.links.loc[urban_central + " H2 Fuel Cell", "efficiency"]
) * options["use_waste_heat"].get("fuel_cell", 1)
) * options["use_fuel_cell_waste_heat"]
def add_agriculture(n, costs):