This realization calibrates PE and FE parameters
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| Description | Unit | A | |
|---|---|---|---|
| fm_dataglob (char, all_te) |
Energy and CDR technology characteristics: investment costs, O&M costs, efficiency, learning rates … | x | |
| pm_IO_trade (tall, all_regi, all_enty, char) |
Energy trade bounds based on IEA data. | x | |
| pm_data (all_regi, char, all_te) |
Large array for most technical parameters of technologies, more detail on the individual technical parameters and their units can be found in the declaration of the set ‘char’ | x | |
| pm_fedemandBuild (tall, all_regi, all_in) |
read-in parameter for final energy and production trajectories used for the CES parameter calibration in buildings | \(EJ\) | x |
| pm_fedemandInd (tall, all_regi, all_in) |
read-in parameter for final energy and production trajectories used for the CES parameter calibration in industry | \(EJ, ue_primary_steel, ue_secondary_steel: Gt, ue_otherInd: \$tn\) | x |
| pm_secBioShare (ttot, all_regi, all_enty, emi_sectors) |
Share of biomass per carrier for each sector | \(share\) | x |
| sm_EJ_2_TWa | convert from Exa Joule to Tera Watt annum | x |
| Description | Unit | |
|---|---|---|
| pm_IO_input (all_regi, all_enty, all_enty, all_te) |
Energy input based on IEA data | \(TWa\) |
| pm_IO_output (tall, all_regi, all_enty, all_enty, all_te) |
Historical energy output per technology based on IEA data | \(TWa\) |
| pm_fuExtrOwnCons (all_regi, all_enty, all_enty) |
energy own consumption in the extraction sector with first enty being the output produced and the second enty being the input required | |
| pm_histfegrowth (all_regi, all_enty) |
average growth rate of fe use from 1995 to 2005 | |
| pm_prodCouple (all_regi, all_enty, all_enty, all_te, all_enty) |
own consumption |
This realization used IEA data from 2014. The realization iea2014 serves to caliibrate the conversion efficiencies to be consistent with predefined dataset (here iea2014, but it is flexible for up-dates). The module realization starts with the final energy demands and then derives backwards what the secondary and primary energy demands have been. The file datainput.gms reads in the energy data related to each process. The process related inputs are contained in input/f04_IO_input.cs4r and the output are contained in input/f04_IO_output.cs4r. These files also contain all information about existing and statistically reported joint production processes. Based on these energy flows the corresponding conversion efficiencies that replicate these energy flows. The efficiencies are assigned to the parameter pm_data(,“eta”,).
Limitations There are no known limitations.
| Description | Unit | A | |
|---|---|---|---|
| f04_IO_input (tall, all_regi, all_enty, all_enty, all_te) |
Energy input based on IEA data | x | |
| f04_IO_output (tall, all_regi, all_enty, all_enty, all_te) |
Energy output based on IEA data | x | |
| p04_IO_output (all_regi, all_enty, all_enty, all_te) |
Energy output based on IEA data | x | |
| p04_IO_output_beforeFix (ttot, all_regi, all_enty, all_enty, all_te) |
Energy output based on IEA data as read in from input data before correction from FE trajectories | x | |
| p04_IO_output_beforeFix_Total (ttot, all_regi, all_enty) |
Energy output based on IEA data as read in from input data before correction from FE trajectories summed over SE | x | |
| p04_aux_data (all_regi, char, all_te) |
auxiliary parameter to store the initial mix0 and eta values for gas electricity before splitting it to ngcc and ngt (needed as long as calibration routine sets ngt to 0) | x | |
| p04_fuExtr (all_regi, all_enty) |
regional fuel extraction for the base year calibration | x | |
| p04_prodCoupleGlob (all_enty, all_enty, all_te, all_enty) |
global couple products | x | |
| p04_shOilGasEx (all_regi, all_enty) |
share of oil and gas extraction in all regions | x | |
| p04_shareNGTinGas (all_regi) |
Share of ngt in electricity produced from gas | x | |
| p04_x_enty2te_dyn04 (all_regi, all_enty, all_enty, all_te, all_te) |
parameter for the allocation of energy flow to technologies | x |
| description | |
|---|---|
| all_enty | all types of quantities |
| all_in | all inputs and outputs of the CES function |
| all_regi | all regions |
| all_te | all energy technologies, including from modules |
| bi2s(all_enty, all_enty, all_te, all_te) | match ESM fe for buildings and industry to stationary |
| char | characteristics of technologies |
| emi_sectors | comprehensive sector set used for more detailed emissions accounting (REMIND-EU) and for CH4 tier 1 scaling - potentially to be integrated with similar set all_exogEmi |
| en2en(all_enty, all_enty, all_te) | all energy conversion mappings |
| en2en2(all_enty, all_enty, all_te) | alias of en2en: all energy conversion mappings |
| enty(all_enty) | all types of quantities |
| entyFe(all_enty) | final energy types. |
| entyFe2Sector(all_enty, emi_sectors) | final energy (stationary and transportation) mapping to sectors (industry, buildings, transportation and cdr) |
| entyFeSec2entyFeDetail(all_enty, emi_sectors, all_enty) | final energy and sector mapping to detailed final energy enty split in IO |
| entyFeTrans(all_enty) | final energy types from transport sector |
| entyPe(all_enty) | Primary energy types (PE) |
| entySe(all_enty) | secondary energy types |
| entySeBio(all_enty) | biomass secondary energy types |
| in2enty(all_enty, all_enty, all_te, all_te) | match ESM fe to CES structure |
| in2enty2(all_enty, all_enty, all_te, all_te) | alias of in2enty |
| pc2te(all_enty, all_enty, all_te, all_enty) | mapping for own consumption of technologies |
| pe2se(all_enty, all_enty, all_te) | map primary energy carriers to secondary |
| regi(all_regi) | all regions used in the solution process |
| se2fe(all_enty, all_enty, all_te) | map secondary energy to end-use energy using a technology |
| seAgg2fe(all_enty, all_enty) | map secondary energy aggregation to fe |
| t(ttot) | optimisation time, years between cm_startyear and 2150 with 5 to 20 years time steps |
| tall | time index, each year from 1900 to 3000 |
| te(all_te) | energy technologies |
| teChp(all_te) | Technologies that produce seel as main output und sehe as secondary output - dynamically defined |
| ttot(tall) | time index with spin-up, years between 1900 and 2150 with 5 to 20 years time steps |
| uet2fet(all_enty, all_enty, all_te, all_te) | match ESM fe for ue-items of the transport sector to final energy of the transport sector |
04_PE_FE_parameters, 05_initialCap, 24_trade, 30_biomass, 32_power, 40_techpol, 47_regipol, 70_water, core