Based on the breakthrough paper:
Löffler, K.; Hainsch, K.; Burandt, T.; Oei, P.-Y.; Kemfert, C.; Von Hirschhausen, C. Designing a Model for the Global Energy System—GENeSYS-MOD: An Application of the Open-Source Energy Modeling System (OSeMOSYS). Energies 2017, 10, 1468. https://doi.org/10.3390/en10101468
GENeSYS-MOD is used to analyze decarbonization scenarios at the global level, broken down into 10 regions. Its main focus is on interdependencies between traditionally segregated sectors: electricity, transportation, and heating; which are all included in the model. Model calculations include how to achieve the 1.5–2 °C target.
GENeSYS-MOD has seen a large set of advances and application. Those include global analysis, and regional zoom-in's to new functionalities to account for system flexibility. It has been used to provide input to the IPCC, and several other important processes. To see the full list of associated publications please click this link. And the GitHub repository is here.
Löffler, K.; Hainsch, K.; Burandt, T.; Oei, P.-Y.; Kemfert, C.; Von Hirschhausen, C. Designing a Model for the Global Energy System—GENeSYS-MOD: An Application of the Open-Source Energy Modeling System (OSeMOSYS). Energies 2017, 10, 1468. https://doi.org/10.3390/en10101468
GENeSYS-MOD is used to analyze decarbonization scenarios at the global level, broken down into 10 regions. Its main focus is on interdependencies between traditionally segregated sectors: electricity, transportation, and heating; which are all included in the model. Model calculations include how to achieve the 1.5–2 °C target.
GENeSYS-MOD has seen a large set of advances and application. Those include global analysis, and regional zoom-in's to new functionalities to account for system flexibility. It has been used to provide input to the IPCC, and several other important processes. To see the full list of associated publications please click this link. And the GitHub repository is here.