Multi-objective unit commitment with introduction of a methodology for probabilistic assessment of generating capacities availability

The goal of the short-term unit commitment is the minimization of the total operation cost while satisfying all unit and system constraints. One of the main issues while solving the unit commitment optimization problem is the planning of the capacity reserves of the power system. In order to address...

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Veröffentlicht in:	Engineering applications of artificial intelligence 2015-01, Vol.37, p.236-249
Hauptverfasser:	Gjorgiev, Blaže, Kančev, Duško, Čepin, Marko, Volkanovski, Andrija
Format:	Artikel
Sprache:	eng
Schlagworte:	Assessments Dynamical systems Dynamics Generation dispatch Genetic algorithm Mathematical models Multi-objective optimization Optimization Power system Probabilistic methods Probability theory Unavailability Unit commitment
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creator	Gjorgiev, Blaže Kančev, Duško Čepin, Marko Volkanovski, Andrija
description	The goal of the short-term unit commitment is the minimization of the total operation cost while satisfying all unit and system constraints. One of the main issues while solving the unit commitment optimization problem is the planning of the capacity reserves of the power system. In order to address this issue, a dynamic method for probabilistic assessment of generation unavailability is proposed within this paper. The main highlight feature of this method is that it has the capacity to account for the unavailability implications of the generating unit states, being committed or decommitted as well as their start-up characteristics. This allows more comprehensive hour-to-hour scheduling analyses from the aspect of probabilistic unavailability assessment. The generating capacities unavailability is designated as the relevant unavailability measure regarding the power supply to loads. The unit commitment problem is developed as a multi-objective optimization problem. Two objective functions are considered: the total operating cost of the generating capacities as one and generating capacities unavailability as the other objective function. An improved hybrid genetic algorithm is applied for solving the problem. A test power system is used as a case study. The obtained results indicate the need and benefits of more detailed modelling of the power generation availability. •The UC problem was developed as a multi-objective optimization problem.•Dynamic method for probabilistic assessment of generation unavailability is proposed.•An improved hybrid genetic algorithm was developed and applied on the UC problem.•The trade-off between cost and the unavailability was analysed.
doi_str_mv	10.1016/j.engappai.2014.09.014
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Two objective functions are considered: the total operating cost of the generating capacities as one and generating capacities unavailability as the other objective function. An improved hybrid genetic algorithm is applied for solving the problem. A test power system is used as a case study. 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subjects	Assessments Dynamical systems Dynamics Generation dispatch Genetic algorithm Mathematical models Multi-objective optimization Optimization Power system Probabilistic methods Probability theory Unavailability Unit commitment
title	Multi-objective unit commitment with introduction of a methodology for probabilistic assessment of generating capacities availability
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