Uncertainties in the day-ahead forecasts for load and wind energy availability are considered in a reliability unit commitment problem. A two-stage stochastic program is formulated to minimize total expected cost, where commitments of thermal units are viewed as first-stage decisions and dispatch is relegated to the second stage. Scenario paths of hourly loads are generated according to a weather forecast-based load model. Wind energy scenarios are obtained by identifying analogue historical days. Net load scenarios are then created by crossing scenarios from each set and subtracting wind energy from load. A new heuristic scenario reduction method termed forward selection in recourse clusters (FSRC) is customized to alleviate the computatio...
Abstract—We present a two-stage stochastic programming model for committing reserves in systems with...
Stochastic programming is employed regularly to solve energy planning problems with uncertainties in...
The cost of balancing supply and demand will increase as power systems are decarbonised, because the...
A two-stage stochastic program is formulated for day-ahead commitment of thermal generating units to...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
© 2016 IEEE. In power systems rife with uncertainty, stochastic unit commitment (SUC) models may be ...
Thesis (Ph.D.)--University of Washington, 2013Large amounts of wind generation have been added to th...
The stochastic nature of wind alters the unit commitment and dispatch problem. By accounting for thi...
We propose a stochastic generation expansion model, where we represent the long-term uncertainty in ...
In recent years, high penetration of variable generating sources, such as wind power, has challenged...
In power systems with high penetration of wind generation, probabilistic scenarios are generated for...
In this paper we present a unit commitment model for studying the impact of large-scale wind integra...
With the increasing penetration of renewable energy, it is difficult to schedule unit commitment (UC...
relaxation for solving stochastic unit commitment subject to uncertainty in renewable power supply a...
Abstract—We present a two-stage stochastic programming model for committing reserves in systems with...
Stochastic programming is employed regularly to solve energy planning problems with uncertainties in...
The cost of balancing supply and demand will increase as power systems are decarbonised, because the...
A two-stage stochastic program is formulated for day-ahead commitment of thermal generating units to...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
Probabilistic wind power scenarios constitute a crucial input for stochastic day-ahead unit commitme...
© 2016 IEEE. In power systems rife with uncertainty, stochastic unit commitment (SUC) models may be ...
Thesis (Ph.D.)--University of Washington, 2013Large amounts of wind generation have been added to th...
The stochastic nature of wind alters the unit commitment and dispatch problem. By accounting for thi...
We propose a stochastic generation expansion model, where we represent the long-term uncertainty in ...
In recent years, high penetration of variable generating sources, such as wind power, has challenged...
In power systems with high penetration of wind generation, probabilistic scenarios are generated for...
In this paper we present a unit commitment model for studying the impact of large-scale wind integra...
With the increasing penetration of renewable energy, it is difficult to schedule unit commitment (UC...
relaxation for solving stochastic unit commitment subject to uncertainty in renewable power supply a...
Abstract—We present a two-stage stochastic programming model for committing reserves in systems with...
Stochastic programming is employed regularly to solve energy planning problems with uncertainties in...
The cost of balancing supply and demand will increase as power systems are decarbonised, because the...