Abstract This paper examines how enhanced flexibility across space, time, and a regulatory dimension affects the economic costs and CO $$_2$$ 2 emissions of integrating large shares of intermittent renewable energy from wind and solar. We develop a numerical model which resolves hourly dispatch and investment choices among heterogeneous energy technologies and natural resources in interconnected wholesale electricity markets, cross-country trade (spatial flexibility), energy storage (temporal flexibility), and tradable green quotas (regulatory f...
This paper analyzes the economic potential of Power-to-Gas (PtG) as a source of flexibility in elect...
INSEADIn this paper we analyze incentives for investment in renewable electricity generating capacit...
Since variable renewables with low marginal costs will constitute the dominant source of power in a ...
This paper examines how enhanced flexibility across space, time, and a regulatory dimension affects ...
This paper examines how enhanced flexibility across space, time, and a regulatory dimension affects ...
This paper investigates the effect of increased demand-side flexibility (DSF) on integration and mar...
In this paper, we perform an econometric analysis on the benefits of introducing flexibility in the ...
We present a systematic review of the challenges to the regulation of electricity markets that are p...
Recent European Green Deal includes decision to become carbon neutral and even carbon negative regio...
This paper investigates the effect of increased demand-side flexibility (DSF) on integration and mar...
Following the formulation of certain strategic policy goals, such as reducing greenhouse gases (GHGs...
The development of non-dispatchable renewable sources of energy requires more flexible reliable ther...
Most energy markets (EMs) across Europe are based on a design framework involving day-ahead, intrada...
The Nordic electricity system faces several challenges, and demand side flexibility will be a key fa...
The development of non-dispatchable renewable sources of energy requires more flexible reliable ther...
This paper analyzes the economic potential of Power-to-Gas (PtG) as a source of flexibility in elect...
INSEADIn this paper we analyze incentives for investment in renewable electricity generating capacit...
Since variable renewables with low marginal costs will constitute the dominant source of power in a ...
This paper examines how enhanced flexibility across space, time, and a regulatory dimension affects ...
This paper examines how enhanced flexibility across space, time, and a regulatory dimension affects ...
This paper investigates the effect of increased demand-side flexibility (DSF) on integration and mar...
In this paper, we perform an econometric analysis on the benefits of introducing flexibility in the ...
We present a systematic review of the challenges to the regulation of electricity markets that are p...
Recent European Green Deal includes decision to become carbon neutral and even carbon negative regio...
This paper investigates the effect of increased demand-side flexibility (DSF) on integration and mar...
Following the formulation of certain strategic policy goals, such as reducing greenhouse gases (GHGs...
The development of non-dispatchable renewable sources of energy requires more flexible reliable ther...
Most energy markets (EMs) across Europe are based on a design framework involving day-ahead, intrada...
The Nordic electricity system faces several challenges, and demand side flexibility will be a key fa...
The development of non-dispatchable renewable sources of energy requires more flexible reliable ther...
This paper analyzes the economic potential of Power-to-Gas (PtG) as a source of flexibility in elect...
INSEADIn this paper we analyze incentives for investment in renewable electricity generating capacit...
Since variable renewables with low marginal costs will constitute the dominant source of power in a ...