# -*- coding: utf-8 -*- # SPDX-FileCopyrightText: : 2021-2023 The PyPSA-Eur Authors # # SPDX-License-Identifier: MIT """ Build import locations for fossil gas from entry-points, LNG terminals and production sites with data from SciGRID_gas and Global Energy Monitor. """ import logging logger = logging.getLogger(__name__) import geopandas as gpd import pandas as pd from cluster_gas_network import load_bus_regions def read_scigrid_gas(fn): df = gpd.read_file(fn) df = pd.concat([df, df.param.apply(pd.Series)], axis=1) df.drop(["param", "uncertainty", "method"], axis=1, inplace=True) return df def build_gem_lng_data(lng_fn): df = pd.read_excel(lng_fn[0], sheet_name="LNG terminals - data") df = df.set_index("ComboID") remove_status = ["Cancelled"] remove_country = ["Cyprus", "Turkey"] remove_terminal = ["Puerto de la Luz LNG Terminal", "Gran Canaria LNG Terminal"] df = df.query( "Status != 'Cancelled' \ & Country != @remove_country \ & TerminalName != @remove_terminal \ & CapacityInMtpa != '--'" ) geometry = gpd.points_from_xy(df["Longitude"], df["Latitude"]) return gpd.GeoDataFrame(df, geometry=geometry, crs="EPSG:4326") def build_gas_input_locations(lng_fn, entry_fn, prod_fn, countries): # LNG terminals lng = build_gem_lng_data(lng_fn) # Entry points from outside the model scope entry = read_scigrid_gas(entry_fn) entry["from_country"] = entry.from_country.str.rstrip() entry = entry.loc[ ~(entry.from_country.isin(countries) & entry.to_country.isin(countries)) & ~entry.name.str.contains("Tegelen") # only take non-EU entries | (entry.from_country == "NO") # malformed datapoint # entries from NO to GB ] # production sites inside the model scope prod = read_scigrid_gas(prod_fn) prod = prod.loc[ (prod.geometry.y > 35) & (prod.geometry.x < 30) & (prod.country_code != "DE") ] mcm_per_day_to_mw = 437.5 # MCM/day to MWh/h mtpa_to_mw = 1649.224 # mtpa to MWh/h lng["p_nom"] = lng["CapacityInMtpa"] * mtpa_to_mw entry["p_nom"] = entry["max_cap_from_to_M_m3_per_d"] * mcm_per_day_to_mw prod["p_nom"] = prod["max_supply_M_m3_per_d"] * mcm_per_day_to_mw lng["type"] = "lng" entry["type"] = "pipeline" prod["type"] = "production" sel = ["geometry", "p_nom", "type"] return pd.concat([prod[sel], entry[sel], lng[sel]], ignore_index=True) if __name__ == "__main__": if "snakemake" not in globals(): from _helpers import mock_snakemake snakemake = mock_snakemake( "build_gas_input_locations", simpl="", clusters="37", ) logging.basicConfig(level=snakemake.config["logging"]["level"]) regions = load_bus_regions( snakemake.input.regions_onshore, snakemake.input.regions_offshore ) # add a buffer to eastern countries because some # entry points are still in Russian or Ukrainian territory. buffer = 9000 # meters eastern_countries = ["FI", "EE", "LT", "LV", "PL", "SK", "HU", "RO"] add_buffer_b = regions.index.str[:2].isin(eastern_countries) regions.loc[add_buffer_b] = ( regions[add_buffer_b].to_crs(3035).buffer(buffer).to_crs(4326) ) countries = regions.index.str[:2].unique().str.replace("GB", "UK") gas_input_locations = build_gas_input_locations( snakemake.input.lng, snakemake.input.entry, snakemake.input.production, countries, ) gas_input_nodes = gpd.sjoin(gas_input_locations, regions, how="left") gas_input_nodes.rename(columns={"index_right": "bus"}, inplace=True) gas_input_nodes.to_file(snakemake.output.gas_input_nodes, driver="GeoJSON") gas_input_nodes_s = ( gas_input_nodes.groupby(["bus", "type"])["p_nom"].sum().unstack() ) gas_input_nodes_s.columns.name = "p_nom" gas_input_nodes_s.to_csv(snakemake.output.gas_input_nodes_simplified)