OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE

Akbar Maleki; Alireza Askarzadeh

Year 2013, Volume: 5 Issue: 4, 1 - 12, 01.12.2013

Akbar Maleki Alireza Askarzadeh

Abstract

References

[1] D. Nelson, M. Nehrir, and C. Wang, "Unit sizing and cost analysis of stand-alone hybrid wind/PV/fuel cell power generation systems," Renewable energy, vol. 31, pp. 1641-1656, 2006.
[2] M. Calderón, A. Calderón, A. Ramiro, and J. González, "Automatic management of energy flows of a stand-alone renewable energy supply with hydrogen support," International Journal of Hydrogen Energy, vol. 35, pp. 2226-2235, 2010.
[3] R. Valdés, L. Rodríguez, and J. Lucio, "Procedure for optimal design of hydrogen production plants with reserve storage and a stand-alone photovoltaic power system," International Journal of Hydrogen Energy, vol. 37, pp. 4018-4025, 2012.
[4] M. H. Nehrir and C. Wang, Modeling and control of fuel cells: distributed generation applications vol. 41: John Wiley & Sons, 2009.
[5] N. A. Ahmed, M. Miyatake, and A. Al-Othman, "Power fluctuations suppression of stand-alone hybrid generation combining solar photovoltaic/wind turbine and fuel cell systems," Energy Conversion and Management, vol. 49, pp. 2711-2719, 2008.
[6] M. Uzunoglu, O. Onar, and M. Alam, "Modeling, control and simulation of a PV/FC/UC based hybrid power generation system for stand-alone applications," Renewable Energy, vol. 34, pp. 509-520, 2009.
[7] P. Zervas, H. Sarimveis, J. Palyvos, and N. Markatos, "Model-based optimal control of a hybrid power generation system consisting of photovoltaic arrays and fuel cells," Journal of power sources, vol. 181, pp. 327-338, 2008.
[8] D. Rekioua, S. Bensmail, and N. Bettar, "Development of hybrid photovoltaic-fuel cell system for stand-alone application," International Journal of Hydrogen Energy, 2013.
[9] J. Lagorse, M. G. Simoes, A. Miraoui, and P. Costerg, "Energy cost analysis of a solar-hydrogen hybrid energy system for stand-alone applications," International journal of hydrogen energy, vol. 33, pp. 2871-2879, 2008.
[10] S. Diaf, D. Diaf, M. Belhamel, M. Haddadi, and A. Louche, "A methodology for optimal sizing of autonomous hybrid PV/wind system," Energy Policy, vol. 35, pp. 5708-5718, 2007.
[11] E. Koutroulis, D. Kolokotsa, A. Potirakis, and K. Kalaitzakis, "Methodology for optimal sizing of stand-alone photovoltaic/wind-generator systems using genetic algorithms," Solar energy, vol. 80, pp. 1072-1088, 2006.
[12] B. Zhang, Y. Yang, and L. Gan, "Dynamic control of wind/photovoltaic hybrid power systems based on an advanced particle swarm optimization," in Industrial Technology, 2008. ICIT 2008. IEEE International Conference on, 2008, pp. 1-6.
[13] A. Askarzadeh, "A discrete chaotic harmony search-based simulated annealing algorithm for optimum design of PV/wind hybrid system," Solar Energy, vol. 97, pp. 93-101, 2013.
[14] A. Askarzadeh and A. Rezazadeh, "A grouping-based global harmony search algorithm for modeling of proton exchange membrane fuel cell," International Journal of Hydrogen Energy, vol. 36, pp. 5047-5053, 2011.
[15] A. Askarzadeh and A. Rezazadeh, "Parameter identification for solar cell models using harmony search-based algorithms," Solar Energy, vol. 86, pp. 3241-3249, 2012.
[16] A. Askarzadeh, "Developing a discrete harmony search algorithm for size optimization of wind–photovoltaic hybrid energy system," Solar Energy, vol. 98, pp. 190-195, 2013

OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE

Year 2013, Volume: 5 Issue: 4, 1 - 12, 01.12.2013

Akbar Maleki Alireza Askarzadeh

Abstract

Because of their low impact on environment, PV/wind hybrid systems which use fuel cells (FCs) as the energy storage
device are one of the most promising renewable energy sources. In such systems, optimum configuration (sizing) plays an
important role for decreasing the system cost. In this paper, PV/wind/FC system is modeled and a hybrid metaheuristic
technique based on chaotic search (CS), harmony search (HS) and simulated annealing (SA) is employed to find the
optimum configuration. Optimum configuration is found for PV/FC, wind/FC, and PV/wind/FC systems and the results
are compared.

Keywords

Hybrid systems, PV/wind/fuel cell, Optimum configuration

References

[1] D. Nelson, M. Nehrir, and C. Wang, "Unit sizing and cost analysis of stand-alone hybrid wind/PV/fuel cell power generation systems," Renewable energy, vol. 31, pp. 1641-1656, 2006.
[2] M. Calderón, A. Calderón, A. Ramiro, and J. González, "Automatic management of energy flows of a stand-alone renewable energy supply with hydrogen support," International Journal of Hydrogen Energy, vol. 35, pp. 2226-2235, 2010.
[3] R. Valdés, L. Rodríguez, and J. Lucio, "Procedure for optimal design of hydrogen production plants with reserve storage and a stand-alone photovoltaic power system," International Journal of Hydrogen Energy, vol. 37, pp. 4018-4025, 2012.
[4] M. H. Nehrir and C. Wang, Modeling and control of fuel cells: distributed generation applications vol. 41: John Wiley & Sons, 2009.
[5] N. A. Ahmed, M. Miyatake, and A. Al-Othman, "Power fluctuations suppression of stand-alone hybrid generation combining solar photovoltaic/wind turbine and fuel cell systems," Energy Conversion and Management, vol. 49, pp. 2711-2719, 2008.
[6] M. Uzunoglu, O. Onar, and M. Alam, "Modeling, control and simulation of a PV/FC/UC based hybrid power generation system for stand-alone applications," Renewable Energy, vol. 34, pp. 509-520, 2009.
[7] P. Zervas, H. Sarimveis, J. Palyvos, and N. Markatos, "Model-based optimal control of a hybrid power generation system consisting of photovoltaic arrays and fuel cells," Journal of power sources, vol. 181, pp. 327-338, 2008.
[8] D. Rekioua, S. Bensmail, and N. Bettar, "Development of hybrid photovoltaic-fuel cell system for stand-alone application," International Journal of Hydrogen Energy, 2013.
[9] J. Lagorse, M. G. Simoes, A. Miraoui, and P. Costerg, "Energy cost analysis of a solar-hydrogen hybrid energy system for stand-alone applications," International journal of hydrogen energy, vol. 33, pp. 2871-2879, 2008.
[10] S. Diaf, D. Diaf, M. Belhamel, M. Haddadi, and A. Louche, "A methodology for optimal sizing of autonomous hybrid PV/wind system," Energy Policy, vol. 35, pp. 5708-5718, 2007.
[11] E. Koutroulis, D. Kolokotsa, A. Potirakis, and K. Kalaitzakis, "Methodology for optimal sizing of stand-alone photovoltaic/wind-generator systems using genetic algorithms," Solar energy, vol. 80, pp. 1072-1088, 2006.
[12] B. Zhang, Y. Yang, and L. Gan, "Dynamic control of wind/photovoltaic hybrid power systems based on an advanced particle swarm optimization," in Industrial Technology, 2008. ICIT 2008. IEEE International Conference on, 2008, pp. 1-6.
[13] A. Askarzadeh, "A discrete chaotic harmony search-based simulated annealing algorithm for optimum design of PV/wind hybrid system," Solar Energy, vol. 97, pp. 93-101, 2013.
[14] A. Askarzadeh and A. Rezazadeh, "A grouping-based global harmony search algorithm for modeling of proton exchange membrane fuel cell," International Journal of Hydrogen Energy, vol. 36, pp. 5047-5053, 2011.
[15] A. Askarzadeh and A. Rezazadeh, "Parameter identification for solar cell models using harmony search-based algorithms," Solar Energy, vol. 86, pp. 3241-3249, 2012.
[16] A. Askarzadeh, "Developing a discrete harmony search algorithm for size optimization of wind–photovoltaic hybrid energy system," Solar Energy, vol. 98, pp. 190-195, 2013

There are 16 citations in total.

Details

Other ID	JA66BY36GG
Journal Section	Articles
Authors	Akbar Maleki This is me Alireza Askarzadeh This is me
Publication Date	December 1, 2013
Published in Issue	Year 2013 Volume: 5 Issue: 4

Cite

APA	Maleki, A., & Askarzadeh, A. (2013). OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE. International Journal of Engineering and Applied Sciences, 5(4), 1-12.
AMA	Maleki A, Askarzadeh A. OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE. IJEAS. December 2013;5(4):1-12.
Chicago	Maleki, Akbar, and Alireza Askarzadeh. “OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE”. International Journal of Engineering and Applied Sciences 5, no. 4 (December 2013): 1-12.
EndNote	Maleki A, Askarzadeh A (December 1, 2013) OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE. International Journal of Engineering and Applied Sciences 5 4 1–12.
IEEE	A. Maleki and A. Askarzadeh, “OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE”, IJEAS, vol. 5, no. 4, pp. 1–12, 2013.
ISNAD	Maleki, Akbar - Askarzadeh, Alireza. “OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE”. International Journal of Engineering and Applied Sciences 5/4 (December 2013), 1-12.
JAMA	Maleki A, Askarzadeh A. OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE. IJEAS. 2013;5:1–12.
MLA	Maleki, Akbar and Alireza Askarzadeh. “OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE”. International Journal of Engineering and Applied Sciences, vol. 5, no. 4, 2013, pp. 1-12.
Vancouver	Maleki A, Askarzadeh A. OPTIMUM CONFIGURATION OF FUEL CELL-B PV/WIND HYBRID SYSTEM USING A HYBRID METAHEURISTIC TECHNIQUE. IJEAS. 2013;5(4):1-12.