Case Study of a Hybrid (Wind and Solar) Power Plant

Sunil M Jaralikar, Mangalpady Aruna


The paper highlights the urgency of utilizing and promoting use of non conventional sources, particularly the wind and solar energy, so as to control the environmental pollution, such as ozone layer depletion, deforestation, loss of biodiversity, global warming etc. As a case study, the various performance factors of a 10 kW hybrid (wind and solar) power plant, which is having 60:40 power generation share of wind power to solar power were analysed. The study shows that there is mismatch between the designed and actual plant load factor (PLF), as well as the power generation share of the wind and solar power plant. It was also found that the plant utilization factor (PUF) was poor and that there is very less scope for installation of solar tracking system. Based on the detailed analysis of obtained results, certain recommendations were made for streamlining and optimizing the power generation capacity, and also for better utilization of generated power

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El-Hinnawi E, Asit KB. Renewable Sources of Energy and Environment. Dublin: Tycooly International Publishing. 1981: 234.

Ian M. The Status and Prospects for Wind Energy. Renewable Energy. 1996; 8(1-4): 107-109.

Jean L.S. Solar Energy. Solar Energy Journal. 2005; 79(2): 107-109.

Halasa G. Wind-Solar Hybrid Electrical Power Generation in Jordan. Jordan Journal of Mechanical and Industrial Engineering. 2010; 4(1): 205-209.

Yu W, Qian X. Design of 3KW Wind and Solar Hybrid Independent Power Supply System for 3G Base Station. Second International Symposium on Knowledge Acquisition and Modeling (KAM '09). Wuhan. 2009; 3: 289-292.

Mousa K, AlZu'bi H, Diabat A. Design of a hybrid solar-wind power plant using optimization. Second International Conference on Engineering Systems Management and Its Applications (ICESMA). Tehran. 2010: 1-6.

Widen J. Correlations Between Large-Scale Solar and Wind Power in a Future Scenario for Sweden. IEEE Transactions on Sustainable Energy. 2011; 2(2): 177-184.

Anon. Renewable Energy Manual. Goa Energy Development Agency. 2009.

Anon. General Aspects of Energy Management and Energy Audit Book. 2nd Edition. Bureau of Energy Efficiency. India. 2005.

Anon. Energy Performance Assessment for Equipment Utility System Book IV. 2nd Edition. Bureau of Energy Efficiency. India. 2005.

Pecen R, Salim MD, Timmerman M. A Hybrid Solar-Wind Power Generation as an Instructional Resource for Industrial Technology Students. Journal of Industrial Technology. 2000; 16(3): 1-7.

Pecen R, Salim MD, Zora A. A Labview Based Instrumentation System for a Wind-Solar Hybrid Power Station. Journal of Industrial Technology. 2004; 20(3): 1-8.

Rai GD. Non Conventional Energy Sources. 4th Edition. India: Khanna Publishers. 2008: 37- 42.

Jinggang W, Xiaoxia G, Hongbiao D. The Economic Analysis of Wind Solar Hybrid Power Generation System in Villa. International Conferrence of Energy and Environment Technology. Guilin. 2009: 885-887.

Dehghan S, Kiani B, Kazemi A, Parizad A. Optimal Sizing of a Hybrid Wind/PV Plant considering Reliability Indices. World Academy of Science, Engineering and Technology. 2009; 56: 527-536.


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