Optimal sizing of a hybrid power system considering wind power uncertainty using PSO-embedded stochastic simulation

Optimal sizing of a hybrid power system considering wind power uncertainty using PSO-embedded stochastic simulation

Anticipated high penetration of stochastic energy flows throughout the stand-alone micro grids should be optimized by using hybrid stochastic-heuristic simulation methods. It is well treated, in this way, both the uncertainty caused by the renewable power production and the non-linearity of the obje...

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Bibliographic Details
Published in:2010 IEEE 11th International Conference on Probabilistic Methods Applied to Power Systems pp. 722 - 727
Main Authors: Haghi, H Valizadeh, Hakimi, S M, Tafreshi, S M Moghaddas
Format: Conference Proceeding
Language:English
Published: IEEE 01-06-2010
Subjects:
Algorithms
hybrid power system
Hybrid power systems
Optimization methods
Particle swarm optimization
Power system simulation
Production systems
stochastic generation
Stochastic processes
stochastic simulation
Stochastic systems
Uncertainty
Wind energy
wind power
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Summary:Anticipated high penetration of stochastic energy flows throughout the stand-alone micro grids should be optimized by using hybrid stochastic-heuristic simulation methods. It is well treated, in this way, both the uncertainty caused by the renewable power production and the non-linearity of the objective function. In this paper, a hybrid simulation procedure is employed to the problem of sizing in a hybrid power system considering wind power production uncertainty. The developed algorithm consists of a particle swarm optimization (PSO) subroutine embedded in a multivariate Monte Carlo simulation. This study is performed for Kahnouj area in south-east Iran. The system consists of fuel cells, wind turbines, some electrolyzers, a reformer, an anaerobic reactor and some hydrogen tanks. The system is assumed to be stand-alone and uses the biomass as an available subsidiary energy resource. The main objective is to minimize the total costs of the system in view of wind power uncertainty to secure the demand. PSO algorithm is used for optimal sizing of system's components for each simulation run used by Monte Carlo method. Besides, several statistical modeling and analyses are performed prior to the simulation and later on to properly interpret the results.
ISBN:1424457203
9781424457205
DOI:10.1109/PMAPS.2010.5528402