#%matplotlib inline import pandas as pd import numpy as np jrc_base_dir = "data/jrc-idees-2015" eb_base_dir = "data/eurostat-energy_balances-may_2018_edition" tj_to_ktoe = 0.0238845 ktoe_to_twh = 0.01163 # import EU ratios df as csv df=pd.read_csv('resources/industry_sector_ratios.csv', sep=';', index_col=0) sub_sheet_name_dict = { 'Iron and steel':'ISI', 'Chemicals Industry':'CHI', 'Non-metallic mineral products': 'NMM', 'Pulp, paper and printing': 'PPA', 'Food, beverages and tobacco': 'FBT', 'Non Ferrous Metals' : 'NFM', 'Transport Equipment': 'TRE', 'Machinery Equipment': 'MAE', 'Textiles and leather':'TEL', 'Wood and wood products': 'WWP', 'Other Industrial Sectors': 'OIS'} index = ['elec','biomass','methane','hydrogen','heat','naphtha','process emission','process emission from feedstock'] countries_df = pd.DataFrame(columns=index) #data frame final energy consumption per country and source non_EU = ['NO', 'CH', 'ME', 'MK', 'RS', 'BA', 'AL'] rename = {"GR" : "EL", "GB" : "UK"} eu28 = ['FR', 'DE', 'GB', 'IT', 'ES', 'PL', 'SE', 'NL', 'BE', 'FI', 'CZ', 'DK', 'PT', 'RO', 'AT', 'BG', 'EE', 'GR', 'LV', 'HU', 'IE', 'SK', 'LT', 'HR', 'LU', 'SI'] + ['CY','MT'] countries = non_EU + [rename.get(eu,eu) for eu in eu28[:-2]] sectors = ['Iron and steel','Chemicals Industry','Non-metallic mineral products', 'Pulp, paper and printing', 'Food, beverages and tobacco', 'Non Ferrous Metals', 'Transport Equipment', 'Machinery Equipment', 'Textiles and leather', 'Wood and wood products', 'Other Industrial Sectors'] sect2sub = {'Iron and steel':['Electric arc','Integrated steelworks'], 'Chemicals Industry': ['Basic chemicals', 'Other chemicals', 'Pharmaceutical products etc.'], 'Non-metallic mineral products': ['Cement','Ceramics & other NMM','Glass production'], 'Pulp, paper and printing': ['Pulp production','Paper production','Printing and media reproduction'], 'Food, beverages and tobacco': ['Food, beverages and tobacco'], 'Non Ferrous Metals': ['Alumina production', 'Aluminium - primary production', 'Aluminium - secondary production', 'Other non-ferrous metals'], 'Transport Equipment': ['Transport Equipment'], 'Machinery Equipment': ['Machinery Equipment'], 'Textiles and leather': ['Textiles and leather'], 'Wood and wood products' :['Wood and wood products'], 'Other Industrial Sectors':['Other Industrial Sectors']} out_dic ={'Electric arc': 'Electric arc', 'Integrated steelworks': 'Integrated steelworks', 'Basic chemicals': 'Basic chemicals (kt ethylene eq.)', 'Other chemicals':'Other chemicals (kt ethylene eq.)', 'Pharmaceutical products etc.':'Pharmaceutical products etc. (kt ethylene eq.)', 'Cement':'Cement (kt)', 'Ceramics & other NMM':'Ceramics & other NMM (kt bricks eq.)', 'Glass production':'Glass production (kt)', 'Pulp production':'Pulp production (kt)', 'Paper production':'Paper production (kt)', 'Printing and media reproduction':'Printing and media reproduction (kt paper eq.)', 'Food, beverages and tobacco': 'Physical output (index)', 'Alumina production':'Alumina production (kt)', 'Aluminium - primary production': 'Aluminium - primary production', 'Aluminium - secondary production': 'Aluminium - secondary production', 'Other non-ferrous metals' : 'Other non-ferrous metals (kt lead eq.)', 'Transport Equipment': 'Physical output (index)', 'Machinery Equipment': 'Physical output (index)', 'Textiles and leather': 'Physical output (index)', 'Wood and wood products': 'Physical output (index)', 'Other Industrial Sectors': 'Physical output (index)'} loc_dic={'Iron and steel':[5,8], 'Chemicals Industry': [7,11], 'Non-metallic mineral products': [6,10], 'Pulp, paper and printing': [7,11], 'Food, beverages and tobacco': [2,6], 'Non Ferrous Metals': [9,14], 'Transport Equipment': [3,5], 'Machinery Equipment': [3,5], 'Textiles and leather': [3,5], 'Wood and wood products': [3,5], 'Other Industrial Sectors': [3,5]} # In the summary sheet (IDEES database) some names include a white space dic_sec_summary = {'Iron and steel': 'Iron and steel', 'Chemicals Industry': 'Chemicals Industry', 'Non-metallic mineral products': 'Non-metallic mineral products', 'Pulp, paper and printing': 'Pulp, paper and printing', 'Food, beverages and tobacco': ' Food, beverages and tobacco', 'Non Ferrous Metals': 'Non Ferrous Metals', 'Transport Equipment': ' Transport Equipment', 'Machinery Equipment': ' Machinery Equipment', 'Textiles and leather': ' Textiles and leather', 'Wood and wood products': ' Wood and wood products', 'Other Industrial Sectors': ' Other Industrial Sectors'} #countries=['CH'] dic_countries={'NO':'Norway', 'AL':'Albania', 'BA':'Bosnia and Herzegovina', 'MK':'FYR of Macedonia', 'GE':'Georgia', 'IS':'Iceland', 'KO':'Kosovo', 'MD':'Moldova', 'ME':'Montenegro', 'RS':'Serbia', 'UA':'Ukraine', 'TR':'Turkey', } dic_sec ={'Iron and steel':'Iron & steel industry', 'Chemicals Industry': 'Chemical and Petrochemical industry', 'Non-metallic mineral products': 'Non-ferrous metal industry', 'Pulp, paper and printing': 'Paper, Pulp and Print', 'Food, beverages and tobacco': 'Food and Tabacco', 'Non Ferrous Metals': 'Non-metallic Minerals (Glass, pottery & building mat. Industry)', 'Transport Equipment': 'Transport Equipment', 'Machinery Equipment': 'Machinery', 'Textiles and leather': 'Textile and Leather', 'Wood and wood products': 'Wood and Wood Products', 'Other Industrial Sectors': 'Non-specified (Industry)'} # Mining and Quarrying, Construction #Annual energy consumption in Switzerland by sector in 2015 (in TJ) #From: Energieverbrauch in der Industrie und im Dienstleistungssektor, Der Bundesrat #http://www.bfe.admin.ch/themen/00526/00541/00543/index.html?lang=de&dossier_id=00775 dic_Switzerland ={'Iron and steel': 7889., 'Chemicals Industry': 26871., 'Non-metallic mineral products': 15513.+3820., 'Pulp, paper and printing': 12004., 'Food, beverages and tobacco': 17728., 'Non Ferrous Metals': 3037., 'Transport Equipment': 14993., 'Machinery Equipment': 4724., 'Textiles and leather': 1742., 'Wood and wood products': 0., 'Other Industrial Sectors': 10825., 'current electricity': 53760.} dic_sec_position={} for country in countries: countries_df.loc[country] = 0 print (country) for sector in sectors: if country in non_EU: if country == 'CH': e_country = dic_Switzerland[sector]*tj_to_ktoe else: # estimate physical output #energy consumption in the sector and country excel_balances = pd.read_excel('{}/{}.XLSX'.format(eb_base_dir,dic_countries[country]), sheet_name='2016', index_col=2,header=0, skiprows=1 ,squeeze=True) e_country = excel_balances.loc[dic_sec[sector], 'Total all products'] #energy consumption in the sector and EU28 excel_sum_out = pd.read_excel('{}/JRC-IDEES-2015_Industry_EU28.xlsx'.format(jrc_base_dir), sheet_name='Ind_Summary', index_col=0,header=0,squeeze=True) # the summary sheet s_sum_out = excel_sum_out.iloc[49:76,-1] e_EU28 = s_sum_out[dic_sec_summary[sector]] ratio_country_EU28=e_country/e_EU28 excel_out = pd.read_excel('{}/JRC-IDEES-2015_Industry_EU28.xlsx'.format(jrc_base_dir), sheet_name=sub_sheet_name_dict[sector],index_col=0,header=0,squeeze=True) # the summary sheet s_out = excel_out.iloc[loc_dic[sector][0]:loc_dic[sector][1],-1] for subsector in sect2sub[sector]: output = ratio_country_EU28*s_out[out_dic[subsector]] for ind in index: countries_df.loc[country, ind] += float(output*df.loc[ind, subsector]) # kton * MWh = GWh (# kton * tCO2 = ktCO2) else: # read the input sheets excel_out = pd.read_excel('{}/JRC-IDEES-2015_Industry_{}.xlsx'.format(jrc_base_dir,country), sheet_name=sub_sheet_name_dict[sector],index_col=0,header=0,squeeze=True) # the summary sheet s_out = excel_out.iloc[loc_dic[sector][0]:loc_dic[sector][1],-1] for subsector in sect2sub[sector]: output = s_out[out_dic[subsector]] for ind in index: countries_df.loc[country, ind] += output*df.loc[ind, subsector] #kton * MWh = GWh (# kton * tCO2 = ktCO2) countries_df*= 0.001 #GWh -> TWh (ktCO2 -> MtCO2) # save current electricity consumption for country in countries: if country in non_EU: if country == 'CH': countries_df.loc[country, 'current electricity']=dic_Switzerland['current electricity']*tj_to_ktoe*ktoe_to_twh else: excel_balances = pd.read_excel('{}/{}.XLSX'.format(eb_base_dir,dic_countries[country]), sheet_name='2016', index_col=1,header=0, skiprows=1 ,squeeze=True) countries_df.loc[country, 'current electricity'] = excel_balances.loc['Industry', 'Electricity']*ktoe_to_twh else: excel_out = pd.read_excel('{}/JRC-IDEES-2015_Industry_{}.xlsx'.format(jrc_base_dir,country), sheet_name='Ind_Summary',index_col=0,header=0,squeeze=True) # the summary sheet s_out = excel_out.iloc[27:48,-1] countries_df.loc[country, 'current electricity'] = s_out['Electricity']*ktoe_to_twh print(countries_df.loc[country, 'current electricity']) # save df as csv for ind in index: countries_df[ind]=countries_df[ind].astype('float') countries_df = countries_df.round(3) countries_df.rename(index={value : key for key,value in rename.items()},inplace=True) rename_sectors = {'elec':'electricity', 'biomass':'solid biomass', 'heat':'low-temperature heat'} countries_df.rename(columns=rename_sectors,inplace=True) countries_df.to_csv('resources/industrial_demand_per_country.csv', float_format='%.2f')