if country is not None:
generators = generators.loc[generators.country == country]
generators["cum_p_nom_max"] = generators["p_nom_max"].cumsum() / 1e6
return generators
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('plot_p_nom_max',
network='elec',
simpl='',
techs='solar,onwind,offwind-dc',
ext='png',
clusts='5,full',
country='all')
configure_logging(snakemake)
plot_kwds = dict(drawstyle="steps-post")
clusters = snakemake.wildcards.clusts.split(',')
techs = snakemake.wildcards.techs.split(',')
country = snakemake.wildcards.country
if country == 'all':
country = None
else:
plot_kwds['marker'] = 'x'
@author: fabian
"""
import netallocation as ntl
import pypsa
import xarray as xr
import geopandas as gpd
import cartopy.crs as ccrs
from config import to_explanation, source_carrier
import matplotlib.pyplot as plt
import os
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('plot_price_maps', nname='test-de10bf',
method='ptpf', power='net')
if not os.path.isdir(snakemake.output.folder):
os.mkdir(snakemake.output.folder)
n = pypsa.Network(snakemake.input.network)
regions = gpd.read_file(snakemake.input.regions).set_index('name')
payments = xr.open_dataset(snakemake.input.payments).sum(source_carrier)
w = ntl.cost.snapshot_weightings(n)
payments['one_port_operational_cost'] /= w
payments['co2_cost'] /= w
demand = ntl.power_demand(n, per_carrier=True).sel(carrier='Load', drop=True)\
.rename(bus="sink")
if out_logging:
_logger.info(
"Stage 3/5: Unify protected shape area. Step 3: Set geometry of unified shape"
)
unified_shape = gpd.GeoDataFrame(geometry=[unified_shape_file],
crs=area_crs)
return unified_shape
if __name__ == "__main__":
if "snakemake" not in globals():
from _helpers import mock_snakemake
os.chdir(os.path.dirname(os.path.abspath(__file__)))
snakemake = mock_snakemake("build_natura_raster")
configure_logging(snakemake)
# get crs
area_crs = snakemake.config["crs"]["area_crs"]
out_logging = True
inputs = snakemake.input
cutouts = inputs.cutouts
shapefiles = get_fileshapes(inputs)
xs, Xs, ys, Ys = zip(
*(determine_cutout_xXyY(cutout, out_logging=out_logging)
for cutout in cutouts))
bounds = transform_bounds(CUTOUT_CRS, area_crs, min(xs), min(ys), max(Xs),
max(Ys))
transform, out_shape = get_transform_and_shape(bounds,
text = ax.text(1.1,(bottom-0.5*data)[-1]-3,opts['nice_names_n'].get(ind,ind))
texts.append(text)
ax.set_ylabel("Average system cost [Eur/MWh]")
ax.set_ylim([0, 80]) # opts['costs_max']])
ax.set_xlim([0, 1])
#ax.set_xticks([0.5])
ax.set_xticklabels([]) #["w/o\nEp", "w/\nEp"])
ax.grid(True, axis="y", color='k', linestyle='dotted')
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('plot_network', network='elec', simpl='',
clusters='5', ll='copt', opts='Co2L-24H',
attr='p_nom', ext="pdf")
configure_logging(snakemake)
set_plot_style()
opts = snakemake.config['plotting']
map_figsize = opts['map']['figsize']
map_boundaries = opts['map']['boundaries']
n = load_network_for_plots(snakemake.input.network, snakemake.input.tech_costs, snakemake.config)
scenario_opts = snakemake.wildcards.opts.split('-')
fig, ax = plt.subplots(figsize=map_figsize, subplot_kw={"projection": ccrs.PlateCarree()})
plot_map(n, ax, snakemake.wildcards.attr, opts)
n.import_components_from_dataframe(lines, "Line")
n.import_components_from_dataframe(transformers, "Transformer")
n.import_components_from_dataframe(links, "Link")
n.import_components_from_dataframe(converters, "Link")
n = _remove_unconnected_components(n)
_set_lines_s_nom_from_linetypes(n)
_apply_parameter_corrections(n)
_set_countries_and_substations(n)
_set_links_underwater_fraction(n)
_replace_b2b_converter_at_country_border_by_link(n)
n = _adjust_capacities_of_under_construction_branches(n)
return n
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('base_network')
configure_logging(snakemake)
n = base_network()
n.export_to_netcdf(snakemake.output[0])
clustering = clustering_for_n_clusters(
n,
n_clusters,
custom_busmap=False,
potential_mode=potential_mode,
solver_name=snakemake.config['solving']['solver']['name'],
focus_weights=focus_weights)
return clustering.network, clustering.busmap
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('simplify_network',
simpl='',
network='elec')
configure_logging(snakemake)
n = pypsa.Network(snakemake.input.network)
n, trafo_map = simplify_network_to_380(n)
n, simplify_links_map = simplify_links(n)
n, stub_map = remove_stubs(n)
busmaps = [trafo_map, simplify_links_map, stub_map]
if snakemake.wildcards.simpl:
n, cluster_map = cluster(n, int(snakemake.wildcards.simpl))
return s.str[0].astype(float) * s.str[1].astype(float)
def extract_coordinates(s):
regex = (r"(\d{1,2})°(\d{1,2})′(\d{1,2})″(N|S) "
r"(\d{1,2})°(\d{1,2})′(\d{1,2})″(E|W)")
e = s.str.extract(regex, expand=True)
lat = (e[0].astype(float) + (e[1].astype(float) + e[2].astype(float)/60.)/60.)*e[3].map({'N': +1., 'S': -1.})
lon = (e[4].astype(float) + (e[5].astype(float) + e[6].astype(float)/60.)/60.)*e[7].map({'E': +1., 'W': -1.})
return lon, lat
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake #rule must be enabled in config
snakemake = mock_snakemake('prepare_links_p_nom', simpl='', network='elec')
configure_logging(snakemake)
links_p_nom = pd.read_html('https://en.wikipedia.org/wiki/List_of_HVDC_projects', header=0, match="SwePol")[0]
mw = "Power (MW)"
m_b = links_p_nom[mw].str.contains('x').fillna(False)
links_p_nom.loc[m_b, mw] = links_p_nom.loc[m_b, mw].str.split('x').pipe(multiply)
links_p_nom[mw] = links_p_nom[mw].str.extract("[-/]?([\d.]+)", expand=False).astype(float)
links_p_nom['x1'], links_p_nom['y1'] = extract_coordinates(links_p_nom['Converterstation 1'])
links_p_nom['x2'], links_p_nom['y2'] = extract_coordinates(links_p_nom['Converterstation 2'])
links_p_nom.dropna(subset=['x1', 'y1', 'x2', 'y2']).to_csv(snakemake.output[0], index=False)
@author: fabian
"""
import netallocation as ntl
import pypsa
import xarray as xr
import geopandas as gpd
import cartopy.crs as ccrs
from config import to_explanation
import matplotlib.pyplot as plt
import os
from helpers import combine_oneports, scfmt, load
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('plot_price_maps', nname='de50')
plt.rc('figure', dpi=300)
n = pypsa.Network(snakemake.input.network)
regions = gpd.read_file(snakemake.input.regions).set_index('name')
cost = (combine_oneports(
xr.open_dataset(snakemake.input.costs).sum('snapshot')).set_index({
'branch': ['component', 'branch_i']
}).transpose('sink', 'source', 'source_carrier', 'branch'))
if 'price' in snakemake.output[0]:
if any(n.snapshot_weightings.objective != 1):
w = ntl.cost.snapshot_weightings(n)
cost['one_port_operational_cost'] /= w
cost['co2_cost'] /= w
m.set_snapshots(snapshot_weightings.index)
m.snapshot_weightings = snapshot_weightings
for c in n.iterate_components():
pnl = getattr(m, c.list_name+"_t")
for k, df in iteritems(c.pnl):
if not df.empty:
pnl[k] = df.resample(offset).mean()
return m
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('prepare_network', network='elec', simpl='',
clusters='40', ll='v0.3', opts='Co2L-24H')
configure_logging(snakemake)
opts = snakemake.wildcards.opts.split('-')
n = pypsa.Network(snakemake.input[0])
Nyears = n.snapshot_weightings.sum()/8760.
set_line_s_max_pu(n)
for o in opts:
m = re.match(r'^\d+h$', o, re.IGNORECASE)
if m is not None:
n = average_every_nhours(n, m.group(0))
break
else:
import xarray as xr
import matplotlib.pyplot as plt
import cartopy.crs as ccrs
import matplotlib as mpl
import pypsa
from config import color, to_symbol, sink_dims, to_explanation
import netallocation as ntl
from matplotlib.pyplot import Line2D
from pypsa.plot import projected_area_factor
from netallocation.plot_helpers import (
make_handler_map_to_scale_circles_as_in, make_legend_circles_for)
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('plot_allocated_payment',
nname='de50',
sink='highest-lmp')
n = pypsa.Network(snakemake.input.network)
costs = xr.open_dataset(snakemake.input.costs)
sink = snakemake.wildcards.sink
regions = gpd.read_file(snakemake.input.regions).set_index('name')
if sink == 'lowest-lmp':
sink = n.buses_t.marginal_price.mean().idxmin()
elif sink == 'highest-lmp':
sink = n.buses_t.marginal_price.mean().idxmax()
payment = (xr.open_dataset(snakemake.input.costs).sel(
sink=sink, drop=True).fillna(0).sum('snapshot').rename(
source='bus',
dx, dy = cutout.dx, cutout.dy
return [x - dx / 2., X + dx / 2., y - dy / 2., Y + dy / 2.]
def get_transform_and_shape(bounds, res):
left, bottom = [(b // res) * res for b in bounds[:2]]
right, top = [(b // res + 1) * res for b in bounds[2:]]
shape = int((top - bottom) // res), int((right - left) / res)
transform = rio.Affine(res, 0, left, 0, -res, top)
return transform, shape
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('build_natura_raster')
configure_logging(snakemake)
cutouts = snakemake.input.cutouts
xs, Xs, ys, Ys = zip(*(determine_cutout_xXyY(cutout)
for cutout in cutouts))
bounds = transform_bounds(4326, 3035, min(xs), min(ys), max(Xs), max(Ys))
transform, out_shape = get_transform_and_shape(bounds, res=100)
# adjusted boundaries
shapes = gpd.read_file(snakemake.input.natura).to_crs(3035)
raster = ~geometry_mask(shapes.geometry, out_shape[::-1], transform)
raster = raster.astype(rio.uint8)
with rio.open(snakemake.output[0],
'w',
# -*- coding: utf-8 -*-
"""
Created on Tue Sep 8 15:43:11 2020
@author: fabian
"""
import netallocation as ntl
import pypsa
import matplotlib.pyplot as plt
import cartopy.crs as ccrs
import geopandas as gpd
import config
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('plot_operation_high_expenditure',
nname='test-de10')
n = pypsa.Network(snakemake.input.network)
regions = gpd.read_file(snakemake.input.regions).set_index('name')
sn = (n.loads_t.p * n.buses_t.marginal_price).sum(1).idxmax()
# %%
fig, ax = plt.subplots(subplot_kw={"projection": ccrs.EqualEarth()},
figsize=(5, 4))
prod = ntl.power_production(n, sn, per_carrier=True).to_pandas().stack()
n.plot(flow=sn, line_widths=0.01, link_widths=.01, bus_sizes=prod/1e5, ax=ax,
boundaries=regions.total_bounds[[0,2,1,3]], geomap='10m', link_colors='rosybrown')
if save_map is not None:
ec.draw()
plt.savefig(save_map, transparent=True)
plt.close()
availability = downsample_to_coarse_grid(
bounds, dx, dy, ec.region, np.where(ec.region.mask, ec._availability,
0))
return csr_matrix(gk.raster.extractMatrix(availability).flatten() / 100.)
if __name__ == '__main__':
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('build_renewable_profiles',
technology='solar')
configure_logging(snakemake)
pgb.streams.wrap_stderr()
config = snakemake.config['renewable'][snakemake.wildcards.technology]
time = pd.date_range(freq='m', **snakemake.config['snapshots'])
params = dict(years=slice(*time.year[[0, -1]]),
months=slice(*time.month[[0, -1]]))
cutout = atlite.Cutout(config['cutout'],
cutout_dir=os.path.dirname(snakemake.input.cutout),
**params)
minx, maxx, miny, maxy = cutout.extent
logger = logging.getLogger(__name__)
from _helpers import configure_logging
from vresutils.graph import voronoi_partition_pts
import os
import pandas as pd
import geopandas as gpd
import pypsa
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('build_bus_regions')
configure_logging(snakemake)
countries = snakemake.config['countries']
n = pypsa.Network(snakemake.input.base_network)
country_shapes = gpd.read_file(snakemake.input.country_shapes).set_index('name')['geometry']
offshore_shapes = gpd.read_file(snakemake.input.offshore_shapes).set_index('name')['geometry']
onshore_regions = []
offshore_regions = []
for country in countries:
c_b = n.buses.country == country
add_ppls = pd.read_csv(snakemake.input.custom_powerplants,
index_col=0,
dtype={'bus': 'str'})
if isinstance(custom_ppl_query, str):
add_ppls.query(custom_ppl_query, inplace=True)
return ppl.append(add_ppls,
sort=False,
ignore_index=True,
verify_integrity=True)
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('build_powerplants')
configure_logging(snakemake)
n = pypsa.Network(snakemake.input.base_network)
countries = n.buses.country.unique()
ppl = (pm.powerplants(from_url=True).powerplant.fill_missing_decommyears(
).powerplant.convert_country_to_alpha2().query(
'Fueltype not in ["Solar", "Wind"] and Country in @countries'
).replace({
'Technology': {
'Steam Turbine': 'OCGT'
}
}).assign(Fueltype=lambda df: (df.Fueltype.where(
df.Fueltype != 'Natural Gas',
df.Technology.replace('Steam Turbine', 'OCGT').fillna('OCGT')))))
def set_line_nom_max(n):
s_nom_max_set = snakemake.config["lines"].get("s_nom_max,", np.inf)
p_nom_max_set = snakemake.config["links"].get("p_nom_max", np.inf)
n.lines.s_nom_max.clip(upper=s_nom_max_set, inplace=True)
n.links.p_nom_max.clip(upper=p_nom_max_set, inplace=True)
if __name__ == "__main__":
if "snakemake" not in globals():
from _helpers import mock_snakemake
os.chdir(os.path.dirname(os.path.abspath(__file__)))
snakemake = mock_snakemake(
"prepare_network",
network="elec",
simpl="",
clusters="10",
ll="v0.3",
opts="Co2L-24H",
)
configure_logging(snakemake)
opts = snakemake.wildcards.opts.split("-")
n = pypsa.Network(snakemake.input[0])
Nyears = n.snapshot_weightings.objective.sum() / 8760.0
set_line_s_max_pu(n)
for o in opts:
m = re.match(r"^\d+h$", o, re.IGNORECASE)
if m is not None:
# Functions
def haversine(p):
coord0 = n.buses.loc[p.bus0, ["x", "y"]].values
coord1 = n.buses.loc[p.bus1, ["x", "y"]].values
return 1.5 * haversine_pts(coord0, coord1)
if __name__ == "__main__":
if "snakemake" not in globals():
from _helpers import mock_snakemake
os.chdir(os.path.dirname(os.path.abspath(__file__)))
snakemake = mock_snakemake(
"augmented_line_connections", network="elec", simpl="", clusters="10"
)
configure_logging(snakemake)
n = pypsa.Network(snakemake.input.network)
Nyears = n.snapshot_weightings.sum().values[0] / 8760.0
costs = load_costs(
Nyears,
snakemake.input.tech_costs,
snakemake.config["costs"],
snakemake.config["electricity"],
)
options = snakemake.config["augmented_line_connection"]
min_expansion_option = options.get("min_expansion")
k_edge_option = options.get("connectivity_upgrade", 3)
line_type_option = options.get("new_line_type", "HVDC")
Description
-----------
"""
import logging
logger = logging.getLogger(__name__)
from _helpers import configure_logging
import os
import atlite
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('build_cutout', cutout='europe-2013-era5')
configure_logging(snakemake)
cutout_params = snakemake.config['atlite']['cutouts'][
snakemake.wildcards.cutout]
for p in ('xs', 'ys', 'years', 'months'):
if p in cutout_params:
cutout_params[p] = slice(*cutout_params[p])
cutout = atlite.Cutout(snakemake.wildcards.cutout,
cutout_dir=os.path.dirname(snakemake.output[0]),
**cutout_params)
cutout.prepare(nprocesses=snakemake.config['atlite'].get('nprocesses', 4))
def to_csv(dfs):
dir = snakemake.output[0]
os.makedirs(dir, exist_ok=True)
for key, df in iteritems(dfs):
df.to_csv(os.path.join(dir, f"{key}.csv"))
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('make_summary',
network='elec',
simpl='',
clusters='5',
ll='copt',
opts='Co2L-24H',
country='all')
network_dir = os.path.join('..', 'results', 'networks')
else:
network_dir = os.path.join('results', 'networks')
configure_logging(snakemake)
def expand_from_wildcard(key):
w = getattr(snakemake.wildcards, key)
return snakemake.config["scenario"][key] if w == "all" else [w]
if snakemake.wildcards.ll.endswith("all"):
ll = snakemake.config["scenario"]["ll"]
if len(snakemake.wildcards.ll) == 4:
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Wed Aug 26 13:21:30 2020
@author: fabian
"""
import pypsa
import xarray as xr
import pandas as pd
import os
from helpers import combine_oneports, load
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('write_tables', nname='test-de10', sink='DE0 1')
n = pypsa.Network(snakemake.input.network)
costs = xr.open_dataset(snakemake.input.costs)
outdir = snakemake.output[0]
os.makedirs(outdir, exist_ok=True)
# %%
# capital and operational prices
cols = ['marginal_cost', 'capital_cost']
n.lines['marginal_cost'] = 0
adjust_cp = (lambda df: df.assign(capital_cost=df.capital_cost / df.length)
if 'length' in df else df)
prices = pd.concat(
{
ax.legend(handles, labels, ncol=4, loc="upper left")
fig.tight_layout()
if fn is not None:
fig.savefig(fn, transparent=True)
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('plot_summary',
summary='energy',
network='elec',
simpl='',
clusters=5,
ll='copt',
opts='Co2L-24H',
attr='',
ext='png',
country='all')
configure_logging(snakemake)
summary = snakemake.wildcards.summary
try:
func = globals()[f"plot_{summary}"]
except KeyError:
raise RuntimeError(
f"plotting function for {summary} has not been defined")
func(os.path.join(snakemake.input[0], f"{summary}.csv"),
snakemake.output[0])
busmap = reduce(lambda x, y: x.map(y), busmaps[1:], busmaps[0])
for which in ('regions_onshore', 'regions_offshore'):
regions = gpd.read_file(getattr(input, which)).set_index('name')
geom_c = regions.geometry.groupby(busmap).apply(
shapely.ops.cascaded_union)
regions_c = gpd.GeoDataFrame(dict(geometry=geom_c))
regions_c.index.name = 'name'
save_to_geojson(regions_c, getattr(output, which))
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('cluster_network',
network='elec',
simpl='',
clusters='5')
configure_logging(snakemake)
n = pypsa.Network(snakemake.input.network)
focus_weights = snakemake.config.get('focus_weights', None)
renewable_carriers = pd.Index([
tech for tech in n.generators.carrier.unique()
if tech.split('-', 2)[0] in snakemake.config['renewable']
])
if snakemake.wildcards.clusters.endswith('m'):
n_clusters = int(snakemake.wildcards.clusters[:-1])
aggregate_carriers = pd.Index(
if cf_solving.get('skip_iterations', False):
network_lopf(n, solver_name=solver_name, solver_options=solver_options,
extra_functionality=extra_functionality, **kwargs)
else:
ilopf(n, solver_name=solver_name, solver_options=solver_options,
track_iterations=track_iterations,
min_iterations=min_iterations,
max_iterations=max_iterations,
extra_functionality=extra_functionality, **kwargs)
return n
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('solve_network', network='elec', simpl='',
clusters='5', ll='copt', opts='Co2L-BAU-CCL-24H')
configure_logging(snakemake)
tmpdir = snakemake.config['solving'].get('tmpdir')
if tmpdir is not None:
Path(tmpdir).mkdir(parents=True, exist_ok=True)
opts = snakemake.wildcards.opts.split('-')
solve_opts = snakemake.config['solving']['options']
fn = getattr(snakemake.log, 'memory', None)
with memory_logger(filename=fn, interval=30.) as mem:
n = pypsa.Network(snakemake.input[0])
n = prepare_network(n, solve_opts)
n = solve_network(n, config=snakemake.config, solver_dir=tmpdir,
solver_log=snakemake.log.solver, opts=opts)
n.export_to_netcdf(snakemake.output[0])
p_min_pu=-1,
p_nom_extendable=True,
length=h2_links.length.values,
capital_cost=costs.at["H2 pipeline", "capital_cost"] * h2_links.length,
efficiency=costs.at["H2 pipeline", "efficiency"],
carrier="H2 pipeline",
)
if __name__ == "__main__":
if "snakemake" not in globals():
from _helpers import mock_snakemake
os.chdir(os.path.dirname(os.path.abspath(__file__)))
snakemake = mock_snakemake(
"add_extra_components", network="elec", simpl="", clusters=10
)
configure_logging(snakemake)
n = pypsa.Network(snakemake.input.network)
Nyears = n.snapshot_weightings.objective.sum() / 8760.0
costs = load_costs(
Nyears,
tech_costs=snakemake.input.tech_costs,
config=snakemake.config["costs"],
elec_config=snakemake.config["electricity"],
)
attach_storageunits(n, costs)
attach_stores(n, costs)
attach_hydrogen_pipelines(n, costs)
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Jul 20 17:50:06 2020
@author: fabian
"""
import pypsa
import netallocation as ntl
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('solve_tiny_network')
n = ntl.test.get_network_ac_dc()
n.generators['p_nom_min'] = 500
n.generators['p_nom_max'] = 3000
# n.carriers = n.carriers.drop('battery')
n.add('StorageUnit',
'battery',
bus='Frankfurt',
capital_cost=50,
p_nom_extendable=True,
marginal_cost=10,
carrier='battery')
n.lopf(pyomo=False, keep_shadowprices=True, solver_name='gurobi')
n.export_to_netcdf(snakemake.output[0])
:mod:`build_renewable_profiles`
"""
import logging
logger = logging.getLogger(__name__)
from _helpers import configure_logging
import os
import atlite
import geopandas as gpd
from vresutils import hydro as vhydro
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('build_hydro_profile')
configure_logging(snakemake)
config = snakemake.config['renewable']['hydro']
cutout = atlite.Cutout(config['cutout'],
cutout_dir=os.path.dirname(snakemake.input.cutout))
countries = snakemake.config['countries']
country_shapes = gpd.read_file(snakemake.input.country_shapes).set_index(
'name')['geometry'].reindex(countries)
country_shapes.index.name = 'countries'
eia_stats = vhydro.get_eia_annual_hydro_generation(
snakemake.input.eia_hydro_generation).reindex(columns=countries)
inflow = cutout.runoff(shapes=country_shapes,
smooth=True,
midpoints = (breaks[1:] + breaks[:-1])/2.
p = p_area.T
# Per-country FLH comparison
agg_p = pd.Series((p / p.sum()).multiply(midpoints, axis=0).sum(), name="Pietzker")
agg_p['Overall'] = float((p.sum(axis=1) / p.sum().sum()).multiply(midpoints, axis=0).sum())
agg = pd.DataFrame({'PyPSA-Eur': agg_a, 'Pietzcker': agg_p, 'Ratio': agg_p / agg_a})
agg.to_csv(fn)
if __name__ == '__main__':
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('build_country_flh', technology='solar')
configure_logging(snakemake)
pgb.streams.wrap_stderr()
config = snakemake.config['renewable'][snakemake.wildcards.technology]
time = pd.date_range(freq='m', **snakemake.config['snapshots'])
params = dict(years=slice(*time.year[[0, -1]]), months=slice(*time.month[[0, -1]]))
cutout = atlite.Cutout(config['cutout'],
cutout_dir=os.path.dirname(snakemake.input.cutout),
**params)
minx, maxx, miny, maxy = cutout.extent
return df
def save_to_geojson(df, fn):
if os.path.exists(fn):
os.unlink(fn)
if not isinstance(df, gpd.GeoDataFrame):
df = gpd.GeoDataFrame(dict(geometry=df))
df = df.reset_index()
schema = {**gpd.io.file.infer_schema(df), 'geometry': 'Unknown'}
df.to_file(fn, driver='GeoJSON', schema=schema)
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('build_shapes')
configure_logging(snakemake)
country_shapes = countries()
save_to_geojson(country_shapes, snakemake.output.country_shapes)
offshore_shapes = eez(country_shapes)
save_to_geojson(offshore_shapes, snakemake.output.offshore_shapes)
europe_shape = country_cover(country_shapes, offshore_shapes)
save_to_geojson(gpd.GeoSeries(europe_shape), snakemake.output.europe_shape)
nuts3_shapes = nuts3(country_shapes)
save_to_geojson(nuts3_shapes, snakemake.output.nuts3_shapes)
carrier_i = n.carriers.index
nice_names = (pd.Series(config['plotting']['nice_names'])
.reindex(carrier_i).fillna(carrier_i.to_series().str.title()))
n.carriers['nice_name'] = nice_names
colors = pd.Series(config['plotting']['tech_colors']).reindex(carrier_i)
if colors.isna().any():
missing_i = list(colors.index[colors.isna()])
logger.warning(f'tech_colors for carriers {missing_i} not defined '
'in config.')
n.carriers['color'] = colors
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('add_electricity')
configure_logging(snakemake)
n = pypsa.Network(snakemake.input.base_network)
Nyears = n.snapshot_weightings.sum() / 8760.
costs = load_costs(Nyears)
ppl = load_powerplants()
attach_load(n)
update_transmission_costs(n, costs)
attach_conventional_generators(n, costs, ppl)
attach_wind_and_solar(n, costs)
attach_hydro(n, costs, ppl)
"""
import pypsa
import pandas as pd
import xarray as xr
import matplotlib.pyplot as plt
from config import color, to_total_symbol
import numpy as np
from pypsa.descriptors import nominal_attrs
plt.rc('font', family='serif')
plt.rc("text", usetex=False)
if __name__ == "__main__":
if 'snakemake' not in globals():
from _helpers import mock_snakemake
snakemake = mock_snakemake('plot_total_costs', nname='acdc')
n = pypsa.Network(snakemake.input.network)
ca = xr.open_dataset(snakemake.input.costs)
stacked_cost = ca.sum().to_array().to_series()
TC = n.objective_constant + n.objective
if 'lv_limit' in n.global_constraints.index:
for c in n.branch_components:
if n.df(c).empty: continue
mu_upper = (n.global_constraints.at['lv_limit', 'mu'] * n.df(c).length)
nom = nominal_attrs[c]
n.df(c)['mu_upper_' + nom] += mu_upper
stacked_cost['subsidy_cost'] = 0
