© 2015 Elsevier Ltd. Limited transmission capacity may lead to network congestion which results in wind curtailment during periods of high availability of wind. Conventional congestion management techniques usually involve generation management which may not always benefit large wind farms. This paper investigates the problem in detail and presents an improved methodology to quantify the latent scheduling capacity of a power system taking into account stochastic variation in line-thermal rating, intermittency of wind, and mitigating the risk of network congestion associated with high penetration of wind. The mathematical model converts conventional thermal constraints to dynamic constraints by using a discretized stochastic penalty function...
Owing to the economic, social, and political problems in the expansion of transmission infrastructur...
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...
Limited transmission capacity may lead to network congestion which results in wind curtailment durin...
Limited transmission capacity may lead to wind curtailment during periods of high availability of wi...
Large scale integration of wind power can be deterred by congestion following an outage that results...
One of the factors hindering the large scale integration of wind power is the post contingency conge...
International audienceThis paper analyses the benefits of dynamic line rating (DLR) in the system wi...
The stochastic nature of wind alters the unit commitment and dispatch problem. By accounting for thi...
The great proliferation of wind power generation has brought about great challenges to power system ...
This paper analyses the benefits of dynamic line rating (DLR) in the system with high penetration of...
Nowadays renewable energy sources (RES) are growing at a rapid pace, particularly the wind energy. T...
Abstract — An important characteristic of wind power is its sto-chastic and non-dispatchable nature....
The existing optimization approaches regarding network-constrained unit commitment with large wind p...
Grid integration of large scale renewable energy is one of the biggest challenges facing the electri...
Owing to the economic, social, and political problems in the expansion of transmission infrastructur...
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...
Limited transmission capacity may lead to network congestion which results in wind curtailment durin...
Limited transmission capacity may lead to wind curtailment during periods of high availability of wi...
Large scale integration of wind power can be deterred by congestion following an outage that results...
One of the factors hindering the large scale integration of wind power is the post contingency conge...
International audienceThis paper analyses the benefits of dynamic line rating (DLR) in the system wi...
The stochastic nature of wind alters the unit commitment and dispatch problem. By accounting for thi...
The great proliferation of wind power generation has brought about great challenges to power system ...
This paper analyses the benefits of dynamic line rating (DLR) in the system with high penetration of...
Nowadays renewable energy sources (RES) are growing at a rapid pace, particularly the wind energy. T...
Abstract — An important characteristic of wind power is its sto-chastic and non-dispatchable nature....
The existing optimization approaches regarding network-constrained unit commitment with large wind p...
Grid integration of large scale renewable energy is one of the biggest challenges facing the electri...
Owing to the economic, social, and political problems in the expansion of transmission infrastructur...
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...