Abstract—We present a two-stage stochastic programming model for committing reserves in systems with large amounts of wind power. We describe wind power generation in terms of a representative set of appropriately weighted scenarios, and we present a dual decomposition algorithm for solving the resulting stochastic program. We test our scenario generation methodology on a model of California consisting of 122 generators, and we show that the stochastic programming unit commitment policy outperforms common reserve rules. Index Terms—Wind power integration, reserve requirements, stochastic unit commitment. I
We present a computational framework for integrating the state-of-the-art Weather Research and Forec...
International audienceDecision making regarding the operation of renewable-integrated power systems ...
The United State’s renewable portfolio standards call for a large increase of renewable energy and i...
In this paper we present a unit commitment model for studying the impact of large-scale wind integra...
The cost of balancing supply and demand will increase as power systems are decarbonised, because the...
Thesis (Ph.D.)--University of Washington, 2013Large amounts of wind generation have been added to th...
Grid integration of renewable resources such as solar and wind energy can significantly raise the le...
In this paper, we investigate the representation of stochastic wind power generation in the unit com...
In recent years, high penetration of variable generating sources, such as wind power, has challenged...
Wind power generation is variable and uncertain. In the power systems with high penetration of wind ...
The existing optimization approaches regarding network-constrained unit commitment with large wind p...
Uncertainties in the day-ahead forecasts for load and wind energy availability are considered in a r...
Abstract—Wind Energy has become the renewable energy with the highest installed capacity in some Eur...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
Wind power producers have recently gained a significant penetration in the electric power network, w...
We present a computational framework for integrating the state-of-the-art Weather Research and Forec...
International audienceDecision making regarding the operation of renewable-integrated power systems ...
The United State’s renewable portfolio standards call for a large increase of renewable energy and i...
In this paper we present a unit commitment model for studying the impact of large-scale wind integra...
The cost of balancing supply and demand will increase as power systems are decarbonised, because the...
Thesis (Ph.D.)--University of Washington, 2013Large amounts of wind generation have been added to th...
Grid integration of renewable resources such as solar and wind energy can significantly raise the le...
In this paper, we investigate the representation of stochastic wind power generation in the unit com...
In recent years, high penetration of variable generating sources, such as wind power, has challenged...
Wind power generation is variable and uncertain. In the power systems with high penetration of wind ...
The existing optimization approaches regarding network-constrained unit commitment with large wind p...
Uncertainties in the day-ahead forecasts for load and wind energy availability are considered in a r...
Abstract—Wind Energy has become the renewable energy with the highest installed capacity in some Eur...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
Wind power producers have recently gained a significant penetration in the electric power network, w...
We present a computational framework for integrating the state-of-the-art Weather Research and Forec...
International audienceDecision making regarding the operation of renewable-integrated power systems ...
The United State’s renewable portfolio standards call for a large increase of renewable energy and i...