A Methodology of Optimal Sizing for Wind Solar Hybrid System

Authors

  • Avinash Nath Tiwari Department of Mechanical Engineering, Jagannath University, Jaipur, India
  • Navnit Dubey Department of Mechanical Engineering, Jagannath University, Jaipur, India

DOI:

https://doi.org/10.51983/arme-2019.8.2.2956

Keywords:

optimum system sizing, loss of power supply probability, wind, solar, hybrid system

Abstract

This paper proposes a methodology to perform the optimal sizing of a wind solar hybrid system. The methodology focus at finding the configuration, between a set of systems components to satisfy the desired system reliability requirements, with the lowest possible cost. Due to large number of design setting and the sporadique nature of solar and wind energy sources it become very challenging. In the first step modelling a wind solar hybrid system is considered in the procedure of optimal sizing methodology. While in second step optimum sizing of a system is done according to the loss of power supply probability (LPSP).

References

I. Abouzahr and R. Ramakumar, "Loss of power supply probability of standalone electric conversion systems: a closed form solution approach," IEEE Transaction on Energy Conv., vol. 5, no. 3, pp. 445-452, 1990.

I. Abouzahr and R. Ramakumar, "Loss of power supply probability of standalone photovoltaic systems: a closed form solution approach," IEEE Transaction on Energy Conv., vol. 6, no. 1, pp. 1-11, 1991.

T. J. Akai, Applied Numerical Methods for Engineers, 2nd ed. John Wiley and Sons, New York, 1994.

A. A. Lazou and A. D. Papatsoris, "The economics of PV stand-alone residential households: A case study for various European and Mediterranean locations," Solar Energy Materials and Solar Cells, vol. 62, pp. 411-427, 2000.

A. D. Bagul, Z. M. Salameh, and B. Borowy, "Sizing of standalone hybrid PV/wind system using a three-event probabilistic density approximation," Solar Energy, vol. 56, no. 4, pp. 323-335, 1996.

H. G. Beyer and C. Langer, "A method for the identification of configurations of PV/wind hybrid systems for the reliable supply of small loads," Solar Energy, vol. 57, no. 5, pp. 381-391, 1996.

A. Bin, Y. Hongxing, H. Shen, and L. Xianbo, "Computer aided design for PV/Wind hybrid system," Renewable Energy, vol. 28, pp. 1491-1512, 2003.

S. B. Bogdan and Z. M. Salameh, "Methodology for optimally sizing the combination of a battery bank and PV array in a wind/PV hybrid system," IEEE Transactions on Energy Conv., vol. 11, no. 2, pp. 367-375, 1996.

B. S. Borowy and Z. M. Salameh, "Optimum photovoltaic array size for a hybrid wind/PV system," IEEE Transactions on Energy Conv., vol. 9, no. 3, pp. 482-488, 1994.

C. Bueno and J. A. Carta, "Technical-economic analysis of wind-powered pumped hydrostorage systems. Part I: Model development," Solar Energy, vol. 78, pp. 382-395, 2005.

R. Chedid and Y. Saliba, "Optimization and control of autonomous renewable energy systems," Int J Energy Res., vol. 20, pp. 609-624, 1996.

R. Chedid and S. Rahman, "A decision support technique for the design of hybrid solar wind power systems," IEEE Transactions on Energy Conv., vol. 13, no. 1, pp. 76-83, 1998.

J. A. Duffie and W. A. Beckman, Solar Engineering of Thermal Process, 2nd ed. John Wiley and Sons, Inc., New York, 1991.

E. K. Dionissia, A. P. Antonis, and K. Kostas, "Methodology for optimal sizing of stand alone photovoltaic/wind generator systems using genetic algorithms," Solar Energy, vol. 80, pp. 1072-1088, 2006.

M. A. Elhadidy and S. M. Shaahid, "Optimal sizing of battery storage for hybrid (wind + diesel) power systems," Renewable Energy, vol. 18, pp. 77-86, 1999.

E. S. Gavanidou and A. G. Bakirtzis, "Design of a stand alone system with renewable energy sources using trade off methods," IEEE Transactions on Energy Conv., vol. 7, no. 1, pp. 42-48, 1993.

P. Gipe, Wind Energy Comes of Age. John Wiley & Sons, 1995, p. 536.

S. Gomma, A. K. A. Seoud, and H. N. Kheiralla, "Design and analysis of photovoltaic and wind energy hybrid systems in Alexandria, Egypt," Renewable Energy, vol. 6, no. 5-6, pp. 643-647, 1995.

M. A. Habib, S. Said, M. A. El-Hadidy, and I. Al-Zaharna, "Optimization procedure of a hybrid photovoltaic wind energy system," Energy, vol. 24, pp. 919-929, 1999.

Y. Hongxing, L. Lu, and L. J. Burnett, "Probability and reliability analysis of hybrid PV/wind power conversion system in Hong Kong," in WREC, Cologne, Germany, 2002.

H. Yung et al., "Optimal sizing method for stand-alone hybrid solar-wind system with LPSP technology by using genetic algorithm," 2008.

A. Ilinka, E. McCarthy, J. L. Chaumel, and J. L. Retiveau, "Wind potential assessment of Quebec Province," Renewable Energy, vol. 28, no. 12, pp. 1881-1897, 2003.

G. L. Johnson, Wind Energy Systems. Englewood Cliffs, NJ: Prentice-Hall, 1985.

S. H. Karaki, R. B. Chedid, and R. Ramadan, "Probabilistic performance assessment of autonomous solar-wind energy conversion systems," IEEE Trans Energy Conv., vol. 14, no. 3, pp. 766-772, 1999.

W. Kellogg, M. H. Nehrir, G. Venkataramanan, and V. Gerez, "Optimal unit sizing for a hybrid PV/wind generating system," Electric power system research, vol. 39, pp. 35-38, 1996.

E. H. Lysen, Introduction to Wind Energy, 2nd ed. SWD 82–1 Holland, 1983.

T. Markvard, Solar Electricity, 2nd ed. Wiley, USA, 2000.

T. Markvart and L. Castaner, Practical Handbook of Photovoltaic Fundamentals and Applications, 2003.

M. S. R. Tito, T. T. Lie, and T. Andersen, "A simple optimization method for wind-photovoltaic-battery hybrid renewable energy systems."

S. V. Karemore and S. Y. Kamdi, "Optimal sizing of autonomous Wind-PV hybrid system by genetic algorithm with LPSP technology."

A. R. D. Musgrove, "The optimization of hybrid energy conversion system using the dynamic programming model – RAPSODY," Int. J Energy Res., vol. 12, pp. 447-457, 1988.

D. B. Nelson, M. H. Nehrir, and C. Wang, "Unit Sizing of Stand Alone Hybrid Wind /PV/Fuel Cell Power Generation Systems," in IEEE Power Engineering Society General Meeting (3), pp. 2116-2122, 2005.

C. Protogeropoulos, B. J. Brinkworth, and R. H. Marshall, "Sizing and techno-economical optimization for hybrid solar PV/wind power systems with battery storage," Int J. Energy Res., vol. 21, pp. 465-479, 1997.

R. Ramakumar et al., "Economic Aspects of Advanced Energy Technologies," Proceedings of the IEEE, vol. 81, no. 3, pp. 317-333, 1993.

I. Troen and E. L. Petersen, European Wind Atlas, 1st ed. Roskilde: Riso National Laboratory, 1989.

H. X. Yang, J. Burnett, and L. Lu, "Weather data and probability analysis of hybrid photovoltaic wind power generation systems in Hong Kong," Renewable Energy, vol. 28, pp. 1813-1824, 2003.

R. Yokoyama, K. Ito, and Y. Yuasa, "Multi-objective optimal unit sizing of hybrid power generation systems utilizing PV and wind energy," J Solar Energy Eng., vol. 116, pp. 167-173, 1994.

L. Lu, J. H. Burnett, and H. X. Yang, "Investigation on wind power potential on Hong Kong islands-an analysis of wind power and wind turbine characteristics," Renewable Energy, vol. 27, pp. 1-12, 2002.

Downloads

Published

20-08-2019

How to Cite

Tiwari, A. N., & Dubey, N. . (2019). A Methodology of Optimal Sizing for Wind Solar Hybrid System. Asian Review of Mechanical Engineering, 8(2), 11–16. https://doi.org/10.51983/arme-2019.8.2.2956