To limit the computational cost, bottom-up long-term (LT) energy-system planning models typically have a stylized temporal representation and do not consider techno-economic operational constraints of power plants. Both these simplifications have been shown to have a significant impact on the results. However, increasing the level of temporal and techno-economic operational detail will result in an increased computational cost. In this regard, the first goal of this work is to quantify which of these simplifications has the highest impact on the results, and should therefore be prioritized for improving. To do so, the impact of both the low level of temporal and techno-economic operational detail are quantified for a varying penetration of ...
Long-term electricity planning models with high temporal granularity are computationally expensive, ...
International audienceOptimizing an energy system model featuring a large proportion of variable (no...
Detailed temporal consideration has been a major challenge for energy systems models with typical ti...
Long-term energy systems often simplify temporal detail resolution. However, this simplification is ...
To limit the computational cost, long-term energy system planning models (e.g., MARKAL/TIMES) tradit...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
To hedge against the limited resources of fossil fuels and to reduce the emissions of green house ga...
This dissertation focuses on energy system optimization models (ESOMs). These models are used to gen...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Planning of future energy systems with higher prevalence of wind and solar energy requires a careful...
Due to computational constraints, power system planning models are typically unable to incorporate f...
Energy models based on optimization principles are valuable tools for optimizing the design elements...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Due to computational restrictions, bottom-up energy-system planning models typically represent intra...
Traditionally, modeling investment and dispatch problems in electricity economics has been limited b...
Long-term electricity planning models with high temporal granularity are computationally expensive, ...
International audienceOptimizing an energy system model featuring a large proportion of variable (no...
Detailed temporal consideration has been a major challenge for energy systems models with typical ti...
Long-term energy systems often simplify temporal detail resolution. However, this simplification is ...
To limit the computational cost, long-term energy system planning models (e.g., MARKAL/TIMES) tradit...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
To hedge against the limited resources of fossil fuels and to reduce the emissions of green house ga...
This dissertation focuses on energy system optimization models (ESOMs). These models are used to gen...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Planning of future energy systems with higher prevalence of wind and solar energy requires a careful...
Due to computational constraints, power system planning models are typically unable to incorporate f...
Energy models based on optimization principles are valuable tools for optimizing the design elements...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Due to computational restrictions, bottom-up energy-system planning models typically represent intra...
Traditionally, modeling investment and dispatch problems in electricity economics has been limited b...
Long-term electricity planning models with high temporal granularity are computationally expensive, ...
International audienceOptimizing an energy system model featuring a large proportion of variable (no...
Detailed temporal consideration has been a major challenge for energy systems models with typical ti...