DocumentCode
1210571
Title
Cost of Reliability Analysis Based on Stochastic Unit Commitment
Author
Wu, Lei ; Shahidehpour, Mohammad ; Li, Tao
Author_Institution
Electr. & Comput. Eng. Dept., Illinois Inst. of Technol., Chicago, IL
Volume
23
Issue
3
fYear
2008
Firstpage
1364
Lastpage
1374
Abstract
This paper presents a model for calculating the cost of power system reliability based on the stochastic optimization of long-term security-constrained unit commitment. Random outages of generating units and transmission lines as well as load forecasting inaccuracy are modeled as scenario trees in the Monte Carlo simulation. Unlike previous reliability analyses methods in the literature which considered the solution of an economic dispatch problem, this model solves an hourly unit commitment problem, which incorporates spatial constraints of generating units and transmission lines, random component outages, and load forecast uncertainty into the reliability problem. The classical methods considered predefined reserve constraints in the deterministic solution of unit commitment. However, this study considers possible uncertainties when calculating the optimal reserve in the unit commitment solution as a tradeoff between minimizing operating costs and satisfying power system reliability requirements. Loss-of-load-expectation (LOLE) is included as a constraint in the stochastic unit commitment for calculating the cost of supplying the reserve. The proposed model can be used by a vertically integrated utility or an ISO. In the first case, the utility considers the impact of long-term fuel and emission scheduling on power system reliability studies. In the second case, fuel and emission constraints of individual generating companies are submitted as energy constraints when solving the ISO´s reliability problem. Numerical simulations indicate the effectiveness of the proposed approach for minimizing the cost of reliability in stochastic power systems.
Keywords
Monte Carlo methods; load forecasting; power generation dispatch; power generation reliability; power transmission lines; Monte Carlo simulation; generating units; load forecasting inaccuracy; long-term security-constrained unit commitment; loss-of-load-expectation; power system reliability analysis; stochastic optimization; stochastic unit commitment; transmission lines; Expected energy not supplied; load shedding; loss-of-load-expectation; power system reliability; random outages; security-constrained unit commitment; stochastic programming;
fLanguage
English
Journal_Title
Power Systems, IEEE Transactions on
Publisher
ieee
ISSN
0885-8950
Type
jour
DOI
10.1109/TPWRS.2008.922231
Filename
4511485
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