*' It solves for an inter-temporal Pareto optimum in economic and energy investments in the model regions, fully accounting for interregional trade in goods,
*' energy carriers and emissions allowances. REMIND allows for the analysis of technology options and policy proposals for climate mitigation.
*'
*' The macro-economic core of REMIND is a Ramsey-type optimal growth model in which intertemporal global welfare is optimized subject to equilibrium constraints.
*' Intertemporal optimization with perfect foresight subject to market clearing.
*' The macro-economic core of REMIND is a Ramsey-type optimal growth model in which intertemporal global welfare is optimized subject to equilibrium constraints ([02_welfare]).
*' Intertemporal optimization ([80_optimization]) with perfect foresight is subject to market clearing. The model explicitly represents trade in final goods, primary energy carriers,
*' and in the case of climate policy, emissions allowances. Macro-economic production factors are capital, labor, and final energy.
*' The production function with constant elasticity of substitution (nested CES production function) determines the final energy demand ([29_CES_parameters]).
*' REMIND uses economic output for investments in the macro-economic capital stock as well as consumption, trade, and energy system expenditures.
*'
*' The macro-economic core and the energy system part are hard-linked via the final energy demand and costs incurred by the energy system.
*' Economic activity results in demand for final energy in different sectors such as transport energy ([35_transport]), electricity ([32_power]),
*' and non-electric energy for stationary end uses ([38_stationary]) splitted into an industy ([37_industry]) and buildings ([36_buildings]) sector.
*' The primary energy carriers in REMIND include both exhaustible and renewable resources. Exhaustible resources comprise uranium as well as three fossil resources ([31_fossil]), namely coal, oil, and gas.
*' Renewable resources include hydro, wind, solar, geothermal, and biomass ([30_biomass]).
*' More than 50 technologies are available for the conversion of primary energy into secondary energy carriers as well as for the distribution of secondary energy carriers into final energy.
*'
*' The model accounts for the full range of anthropogenic greenhouse gas (GHG) emissions, most of which are represented by source.
*' REMIND simulates emissions from long-lived GHGs (CO2, CH4, N2O), short-lived GHGs (CO, NOx, VOC) and aerosols (SO2, BC, OC).
*' It accounts for these emissions with different levels of detail depending on the types and sources of emissions.
*' It calculates CO2 emissions from fuel combustion, CH4 emissions from fossil fuel extraction and residential energy use and N2O emissions from energy supply based on sources.
*'
*' The code is structured in a modular way. The technical structure looky as follows: At the top level you find the folders config, core, modules and scripts.
*' The numerical code is structured in a modular way. The technical structure looky as follows: At the top level you find the folders config, core, modules and scripts.
*' The overall structure is build in the file main.gms. All settings and configuration information is given in the config folder.
*' The core folder contains all files that are part of the core of the REMIND model. For each module there exists a sub-folder in the modules folder.
*' Helpful scripts for e.g. starting a run or analysing results you find in the scripts folder.
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* Input data revision: 5.936
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* Last modification (input data): Fri Dec 20 09:59:38 2019
* Last modification (input data): Fri Dec 20 13:26:17 2019
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*###################### R SECTION END (VERSION INFO) ###########################
