This dissertation focuses on energy system optimization models (ESOMs). These models are used to generate possible transition pathways of the entire energy system in a single or multiple countries over a time horizon of multiple decades. Experimenting with different transition pathways allows gaining insights into the complexity of the energy system transition and can help in forming a long-term vision of this transition. In addition, these transition pathways can be used to evaluate the adequacy of the current policy framework to achieve a desired transition. As such, these models form valuable tools for policy makers. Due to the large scope of ESOMs, solving these models quickly becomes computationally demanding. To limit the computation...
Traditionally, modeling investment and dispatch problems in electricity economics has been limited b...
International audienceEnergy issues, such as greenhouses gas (GHG) emissions, resource scarcity and ...
37 p.Renewable sources of electricity production are strongly increasing in many parts of the world....
To limit the computational cost, bottom-up long-term (LT) energy-system planning models typically ha...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Due to computational restrictions, energy-system optimization models (ESOMs) and generation expansio...
Long-term energy systems often simplify temporal detail resolution. However, this simplification is ...
The planning of an energy system with high penetration of renewables is becoming increasingly import...
Energy system optimization models (ESOMs) are widely used to generate insight that informs energy an...
To hedge against the limited resources of fossil fuels and to reduce the emissions of green house ga...
Models for long-term investment planning of the power system typically return a single optimal solut...
The large-scale integration of variable renewable energy sources into the energy system presents tec...
The energy transition requires significant investments in new power generation, storage, and transmi...
Traditionally, modeling investment and dispatch problems in electricity economics has been limited b...
International audienceEnergy issues, such as greenhouses gas (GHG) emissions, resource scarcity and ...
37 p.Renewable sources of electricity production are strongly increasing in many parts of the world....
To limit the computational cost, bottom-up long-term (LT) energy-system planning models typically ha...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Long-term (LT) energy planning models are widely used for policy analysis and determining pathways t...
Due to computational restrictions, energy-system optimization models (ESOMs) and generation expansio...
Long-term energy systems often simplify temporal detail resolution. However, this simplification is ...
The planning of an energy system with high penetration of renewables is becoming increasingly import...
Energy system optimization models (ESOMs) are widely used to generate insight that informs energy an...
To hedge against the limited resources of fossil fuels and to reduce the emissions of green house ga...
Models for long-term investment planning of the power system typically return a single optimal solut...
The large-scale integration of variable renewable energy sources into the energy system presents tec...
The energy transition requires significant investments in new power generation, storage, and transmi...
Traditionally, modeling investment and dispatch problems in electricity economics has been limited b...
International audienceEnergy issues, such as greenhouses gas (GHG) emissions, resource scarcity and ...
37 p.Renewable sources of electricity production are strongly increasing in many parts of the world....