def consumption_mix_dictionary(nerc_region, surplus_pool_trade_in,
trade_matrix, generation_quantity,
egrid_regions, nerc_region2):
surplus_dict = surplus_pool_dictionary(nerc_region, surplus_pool_trade_in,
trade_matrix, generation_quantity,
egrid_regions, nerc_region2)
#global region
consumption_dict = dict()
for reg in range(0, len(egrid_regions)):
region = egrid_regions[reg][0].value
exchanges_list = []
exchange(ref_exchange_creator(), exchanges_list)
y = len(trade_matrix[0])
chk = 0
for nerc in range(0, len(nerc_region2)):
if nerc_region[reg][0].value == nerc_region2[nerc][0].value:
if surplus_pool_trade_in[reg][0].value != 0:
for j in range(0, y):
#name = surplus_dict[nerc_region[reg][0].value]['name']
if trade_matrix[nerc +
1][j].value != None and trade_matrix[
nerc + 1][j].value != 0:
print(nerc_region[reg][0].value)
exchange(
exchange_table_creation_input_con_mix(
surplus_pool_trade_in[reg][0].value,
nerc_region[reg][0].value), exchanges_list)
chk = 1
break
#name = 'Electricity from generation mix '+eGRID_region[reg][0].value
#fuelname =
if chk == 1:
exchange(
exchange_table_creation_input_con_mix(
generation_quantity[reg][0].value, region), exchanges_list)
else:
exchange(exchange_table_creation_input_con_mix(1, region),
exchanges_list)
final = process_table_creation_con_mix(region, exchanges_list)
print(region + ' Consumption Mix Process Created')
consumption_dict['Consumption' + region] = final
return consumption_dict
def surplus_pool_dictionary(nerc_region, surplus_pool_trade_in, trade_matrix,
gen_quantity, eGRID_region, nerc_region2):
surplus_dict = dict()
for i in range(0, len(nerc_region2)):
region = nerc_region2[i][0].value
exchanges_list = []
exchange(ref_exchange_creator(), exchanges_list)
#y = len(trade_matrix[0])
#chk=0;
for j in range(0, 34):
input_region_surplus_amount = trade_matrix[i + 1][j].value
if input_region_surplus_amount != None and input_region_surplus_amount != 0:
#name = 'Electricity; at region '+trade_matrix[0][j].value+'; Trade Mix'
input_region_acronym = trade_matrix[0][j].value
exchange(
exchange_table_creation_input_con_mix(
input_region_surplus_amount, input_region_acronym),
exchanges_list)
#exchange(exchange_table_creation_input_con_mix(trade_matrix[i+1][j].value,trade_matrix[0][j].value),exchanges_list)
#chk = 1;
final = process_table_creation_surplus(region, exchanges_list)
print(region + ' NERC Surplus Process Created')
surplus_dict['SurplusPool' + region] = final
return surplus_dict
def distribution_mix_dictionary():
distribution_dict = dict()
for reg in egrid_subregions:
exchanges_list = []
exchange(ref_exchange_creator(electricity_at_user_flow),
exchanges_list)
exchange(
exchange_table_creation_input_con_mix(
1 / model_specs.efficiency_of_distribution_grid,
reg,
ref_to_consumption=True), exchanges_list)
final = process_table_creation_distribution(reg, exchanges_list)
distribution_dict['Distribution' + reg] = final
return distribution_dict
def olca_schema_consumption_mix(database, gen_dict, subregion="BA"):
import numpy as np
import pandas as pd
from electricitylci.generation import eia_facility_fuel_region
from electricitylci.globals import data_dir, output_dir
from electricitylci.process_dictionary_writer import (
exchange_table_creation_ref,
exchange,
ref_exchange_creator,
electricity_at_user_flow,
electricity_at_grid_flow,
process_table_creation_con_mix,
exchange_table_creation_input_con_mix
)
import logging
# DELETE NEXT LINE
# database = cons_mix_df
# database = database.drop(columns = ['value', 'total'])
# dist_dict = dist_mix_dict
# DELETE ABOVE
consumption_mix_dict = {}
if subregion == "FERC":
aggregation_column = "import ferc region"
region = list(pd.unique(database[aggregation_column]))
export_column = 'export_name'
elif subregion == "BA":
aggregation_column = "import_name" # "import BAA"
region = list(pd.unique(database[aggregation_column]))
export_column = "export_name" # 'export BAA'
elif subregion == "US":
export_column = "export_name"
region=["US"]
for reg in region:
if subregion =="US":
database_reg = database
else:
database_reg = database.loc[database[aggregation_column] == reg, :]
exchanges_list = []
database_filt = database['fraction'] > 0
database_reg = database_reg[database_filt]
exchange(exchange_table_creation_ref_cons(database_reg), exchanges_list)
for export_region in list(database_reg[export_column].unique()):
database_f1 = database_reg[
database_reg[export_column] == export_region
]
if database_f1.empty != True:
ra = exchange_table_creation_input_con_mix(
database_f1, export_region
)
ra["quantitativeReference"] = False
ra['amount'] = database_reg.loc[database_reg[export_column] == export_region,'fraction'].values[0]
matching_dict = None
for gen in gen_dict:
if (
gen_dict[gen]["name"]
== 'Electricity; at grid; generation mix - ' + export_region
):
matching_dict = gen_dict[export_region]
break
if matching_dict is None:
logging.warning(
f"Trouble matching dictionary for {export_region} - {reg}"
)
else:
ra["provider"] = {
"name": matching_dict["name"],
"@id": matching_dict["uuid"],
"category": matching_dict["category"].split("/"),
}
exchange(ra, exchanges_list)
# Writing final file
final = process_table_creation_con_mix(reg, exchanges_list)
final["name"] = f"Electricity; at grid; consumption mix - {reg} - {subregion}"
consumption_mix_dict[f"{reg} - {subregion}"] = final
return consumption_mix_dict
