Energy system models involve various input data sets representing the generation, consumption and transport infrastructure of electricity. Especially energy system models with a focus on the transmission grid require time series of electricity feed-in and consumption in a high spatial resolution. In general, there are two approaches to obtain regionalized time series: top-down and bottom-up. In many cases, both methodologies may be combined to aggregate or disaggregate input data. Furthermore, there exist various approaches to assign regionalized feed-in of renewable energy sources and electrical load to the model\u27s grid connection points. The variety in the regionalization process leads to significant differences on a regional scope, ev...
This dataset contains regionalization factors for electricity generation and demand time series in G...
This paper assesses how different levels of geographical disaggregation of wind and photovoltaic ene...
Today’s energy system models calculate power flows between simplified nodes representing transmissio...
Energy system models involve various input data sets representing the generation, consumption and tr...
Energy system models involve various input data sets representing the generation, consumption and tr...
Energy scenario analyses are able to provide insights into the future and possible strategies for co...
Energy scenario analyses are able to provide insights into the future and possible strategies for c...
The decarbonization of energy systems has led to a fundamental change in their topologysince generat...
Abstracts: National-scale energy systems optimisation models (ESOMs) have been limited in the past b...
Modeling the optimal design of the future European energy system involves large data volumes and man...
With the large-scale expansion of decentralized power generation from renewable energy resources (RE...
Introduction: Data processing is a crucial step in energy system modelling which prepares input data...
This dataset contains regionalization factors for electricity generation and demand time series in G...
This paper assesses how different levels of geographical disaggregation of wind and photovoltaic ene...
Today’s energy system models calculate power flows between simplified nodes representing transmissio...
Energy system models involve various input data sets representing the generation, consumption and tr...
Energy system models involve various input data sets representing the generation, consumption and tr...
Energy scenario analyses are able to provide insights into the future and possible strategies for co...
Energy scenario analyses are able to provide insights into the future and possible strategies for c...
The decarbonization of energy systems has led to a fundamental change in their topologysince generat...
Abstracts: National-scale energy systems optimisation models (ESOMs) have been limited in the past b...
Modeling the optimal design of the future European energy system involves large data volumes and man...
With the large-scale expansion of decentralized power generation from renewable energy resources (RE...
Introduction: Data processing is a crucial step in energy system modelling which prepares input data...
This dataset contains regionalization factors for electricity generation and demand time series in G...
This paper assesses how different levels of geographical disaggregation of wind and photovoltaic ene...
Today’s energy system models calculate power flows between simplified nodes representing transmissio...