Title :
Comparison of methods for battery capacity design in renewable energy systems for constant demand and uncertain supply
Author :
Ponnambalam, K. ; Saad, Y.E. ; Mahootchi, M. ; Heemink, A.W.
Author_Institution :
Syst. Design Eng. Dept., Univ. of Waterloo, Waterloo, ON, Canada
Abstract :
Renewable energy systems such as solar and wind are notorious for their varying energy production. Joint use of a battery system can mitigate this problem to meet constant demand. In this paper, we compare three methods, namely, (i) Monte Carlo simulation based optimization, (ii) Stochastic programming, and (iii) Optimization using Storage moment equations of Fletcher and Ponnambalam to determine the relation between the battery system capacity versus available energy for use. The first two methods require a large number of samples while the last method uses only the statistical information. Each of these methods can also produce required probabilities of failures as a function of capacity and demand.
Keywords :
Monte Carlo methods; battery storage plants; distributed power generation; renewable energy sources; stochastic programming; Monte Carlo simulation based optimization; battery capacity design; battery system capacity; constant demand; distributed generation; renewable energy systems; stochastic programming; storage moment equations; uncertain supply; Optimized production technology; Programming; DG Dispatching; Grid Integration of DG; Renewable Energy Resources; Solar PV;
Conference_Titel :
Energy Market (EEM), 2010 7th International Conference on the European
Conference_Location :
Madrid
Print_ISBN :
978-1-4244-6838-6
DOI :
10.1109/EEM.2010.5558745
