bjoern/pypsa-eur
1
0
Fork 0
Code Issues Pull Requests Actions 1 Packages Projects Releases Wiki Activity

[pre-commit.ci] auto fixes from pre-commit.com hooks

Browse Source 
for more information, see https://pre-commit.ci
This commit is contained in:
pre-commit-ci[bot] 2024-07-22 13:39:04 +00:00
parent 46f9c7b520
commit 5361facbb7
3 changed files with 77 additions and 33 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

52
rules/build_sector.smk
View File

@ -217,19 +217,37 @@ rule build_temperature_profiles:
rule build_cop_profiles:
params:
heat_pump_sink_T_decentral_heating=config_provider("sector", "heat_pump_sink_T_individual_heating"),
forward_temperature_district_heating=config_provider("sector", "district_heating", "forward_temperature"),
return_temperature_district_heating=config_provider("sector", "district_heating", "return_temperature"),
heat_source_cooling_district_heating=config_provider("sector", "district_heating", "heat_source_cooling"),
heat_pump_cop_approximation_district_heating=config_provider("sector", "district_heating", "heat_pump_cop_approximation"),
heat_pump_sink_T_decentral_heating=config_provider(
"sector", "heat_pump_sink_T_individual_heating"
),
forward_temperature_district_heating=config_provider(
"sector", "district_heating", "forward_temperature"
),
return_temperature_district_heating=config_provider(
"sector", "district_heating", "return_temperature"
),
heat_source_cooling_district_heating=config_provider(
"sector", "district_heating", "heat_source_cooling"
),
heat_pump_cop_approximation_district_heating=config_provider(
"sector", "district_heating", "heat_pump_cop_approximation"
),
input:
temp_soil_total=resources("temp_soil_total_elec_s{simpl}_{clusters}.nc"),
temp_air_total=resources("temp_air_total_elec_s{simpl}_{clusters}.nc"),
output:
cop_air_decentral_heating=resources("cop_air_decentral_heating_elec_s{simpl}_{clusters}.nc"),
cop_soil_decentral_heating=resources("cop_soil_decentral_heating_elec_s{simpl}_{clusters}.nc"),
cop_air_central_heating=resources("cop_air_central_heating_elec_s{simpl}_{clusters}.nc"),
cop_soil_central_heating=resources("cop_soil_central_heating_elec_s{simpl}_{clusters}.nc"),
cop_air_decentral_heating=resources(
"cop_air_decentral_heating_elec_s{simpl}_{clusters}.nc"
),
cop_soil_decentral_heating=resources(
"cop_soil_decentral_heating_elec_s{simpl}_{clusters}.nc"
),
cop_air_central_heating=resources(
"cop_air_central_heating_elec_s{simpl}_{clusters}.nc"
),
cop_soil_central_heating=resources(
"cop_soil_central_heating_elec_s{simpl}_{clusters}.nc"
),
resources:
mem_mb=20000,
log:
@ -1027,10 +1045,18 @@ rule prepare_sector_network:
temp_air_total=resources("temp_air_total_elec_s{simpl}_{clusters}.nc"),
temp_air_rural=resources("temp_air_rural_elec_s{simpl}_{clusters}.nc"),
temp_air_urban=resources("temp_air_urban_elec_s{simpl}_{clusters}.nc"),
cop_soil_decentral_heating=resources("cop_soil_decentral_heating_elec_s{simpl}_{clusters}.nc"),
cop_air_decentral_heating=resources("cop_air_decentral_heating_elec_s{simpl}_{clusters}.nc"),
cop_air_central_heating=resources("cop_air_central_heating_elec_s{simpl}_{clusters}.nc"),
cop_soil_central_heating=resources("cop_soil_central_heating_elec_s{simpl}_{clusters}.nc"),
cop_soil_decentral_heating=resources(
"cop_soil_decentral_heating_elec_s{simpl}_{clusters}.nc"
),
cop_air_decentral_heating=resources(
"cop_air_decentral_heating_elec_s{simpl}_{clusters}.nc"
),
cop_air_central_heating=resources(
"cop_air_central_heating_elec_s{simpl}_{clusters}.nc"
),
cop_soil_central_heating=resources(
"cop_soil_central_heating_elec_s{simpl}_{clusters}.nc"
),
solar_thermal_total=lambda w: (
resources("solar_thermal_total_elec_s{simpl}_{clusters}.nc")
if config_provider("sector", "solar_thermal")(w)

52
scripts/build_cop_profiles.py
View File

@ -38,10 +38,11 @@ References
[3] Pieper et al., Energy 205 (2020): Comparison of COP estimation methods for large-scale heat pumps used in energy planning, https://doi.org/10.1016/j.energy.2020.117994
"""
from typing import Union
from enum import Enum
import xarray as xr
from typing import Union
import numpy as np
import xarray as xr
from _helpers import set_scenario_config
@ -54,17 +55,23 @@ def coefficient_of_performance_individual_heating(delta_T, source="air"):
raise NotImplementedError("'source' must be one of ['air', 'soil']")
def celsius_to_kelvin(t_celsius: Union[float, xr.DataArray, np.array]) -> Union[float, xr.DataArray, np.array]:
def celsius_to_kelvin(
t_celsius: Union[float, xr.DataArray, np.array]
) -> Union[float, xr.DataArray, np.array]:
if (np.asarray(t_celsius) > 200).any():
raise ValueError("t_celsius > 200. Are you sure you are using the right units?")
return t_celsius + 273.15
def logarithmic_mean(t_hot: Union[float, xr.DataArray, np.ndarray], t_cold: Union[float, xr.DataArray, np.ndarray]) -> Union[float, xr.DataArray, np.ndarray]:
def logarithmic_mean(
t_hot: Union[float, xr.DataArray, np.ndarray],
t_cold: Union[float, xr.DataArray, np.ndarray],
) -> Union[float, xr.DataArray, np.ndarray]:
if (np.asarray(t_hot <= t_cold)).any():
raise ValueError("t_hot must be greater than t_cold")
return (t_hot - t_cold) / np.log(t_hot / t_cold)
class CopDistrictHeating:
def __init__(
@ -142,7 +149,8 @@ class CopDistrictHeating:
@property
def t_sink_mean(self) -> Union[xr.DataArray, np.array]:
"""
Calculate the logarithmic mean temperature difference between the cold and hot sinks.
Calculate the logarithmic mean temperature difference between the cold
and hot sinks.
Returns
-------
@ -166,7 +174,8 @@ class CopDistrictHeating:
@property
def delta_t_lift(self) -> Union[xr.DataArray, np.array]:
"""
Calculate the temperature lift as the difference between the logarithmic sink and source temperatures.
Calculate the temperature lift as the difference between the
logarithmic sink and source temperatures.
Returns
-------
@ -187,14 +196,14 @@ class CopDistrictHeating:
-------
np.array
The ideal Lorenz COP.
"""
return self.t_sink_mean / self.delta_t_lift
@property
def delta_t_refrigerant_source(self) -> Union[xr.DataArray, np.array]:
"""
Calculate the temperature difference between the refrigerant source inlet and outlet.
Calculate the temperature difference between the refrigerant source
inlet and outlet.
Returns
-------
@ -208,7 +217,8 @@ class CopDistrictHeating:
@property
def delta_t_refrigerant_sink(self) -> Union[xr.DataArray, np.array]:
"""
Temperature difference between the refrigerant and the sink based on approximation.
Temperature difference between the refrigerant and the sink based on
approximation.
Returns
-------
@ -220,7 +230,8 @@ class CopDistrictHeating:
@property
def ratio_evaporation_compression_work(self) -> Union[xr.DataArray, np.array]:
"""
Calculate the ratio of evaporation to compression work based on approximation.
Calculate the ratio of evaporation to compression work based on
approximation.
Returns
-------
@ -245,7 +256,8 @@ class CopDistrictHeating:
self, delta_t_source: Union[xr.DataArray, np.array]
) -> Union[xr.DataArray, np.array]:
"""
Approximates the temperature difference between the refrigerant and the source.
Approximates the temperature difference between the refrigerant and the
source.
Parameters
----------
@ -291,7 +303,6 @@ class CopDistrictHeating:
The approximate temperature difference at the refrigerant sink is calculated using the following formula:
a * (t_sink_out - t_source_out + 2 * delta_t_pinch) + b * delta_t_sink + c
"""
if refrigerant not in a.keys():
raise ValueError(
@ -366,16 +377,21 @@ if __name__ == "__main__":
delta_T = snakemake.params.heat_pump_sink_T_decentral_heating - source_T
cop_individual_heating = coefficient_of_performance_individual_heating(delta_T, source)
cop_individual_heating.to_netcdf(snakemake.output[f"cop_{source}_decentral_heating"])
cop_individual_heating = coefficient_of_performance_individual_heating(
delta_T, source
)
cop_individual_heating.to_netcdf(
snakemake.output[f"cop_{source}_decentral_heating"]
)
cop_district_heating = CopDistrictHeating(
forward_temperature_celsius=snakemake.params.forward_temperature_district_heating,
return_temperature_celsius=snakemake.params.return_temperature_district_heating,
source_inlet_temperature_celsius=source_T,
source_outlet_temperature_celsius=source_T - snakemake.params.heat_source_cooling_district_heating,
source_outlet_temperature_celsius=source_T
- snakemake.params.heat_source_cooling_district_heating,
).cop()
cop_district_heating.to_netcdf(snakemake.output[f"cop_{source}_central_heating"])
cop_district_heating.to_netcdf(
snakemake.output[f"cop_{source}_central_heating"]
)

4
scripts/prepare_sector_network.py
View File

@ -1827,7 +1827,9 @@ def add_heat(n, costs):
"air decentral": xr.open_dataarray(snakemake.input.cop_air_decentral_heating)
.to_pandas()
.reindex(index=n.snapshots),
"ground decentral": xr.open_dataarray(snakemake.input.cop_soil_decentral_heating)
"ground decentral": xr.open_dataarray(
snakemake.input.cop_soil_decentral_heating
)
.to_pandas()
.reindex(index=n.snapshots),
"air central": xr.open_dataarray(snakemake.input.cop_air_central_heating)