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Hydro and Wind Power Integration: A Case Study of Dargai Station in Pakistan

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DOI: 10.4236/epe.2012.44028    5,090 Downloads   8,544 Views   Citations

ABSTRACT

Pakistan is facing acute energy crises since last few years. Due to shortage of fuel oil and its sky touching prices, it seems very uneconomical to generate electricity from fuel oil. In order to generate cheap electricity we have to rely on renewable energy resources. To address these challenges, wind power generation is among the popular options in the world which is now being considered in Pakistan as well. However unremitting change in wind speed from calm to stormy introduces real challenges. Storing wind energy in batteries during the periods of low demand seems an expensive option, especially when dealing with large scale power generation. Due to incessantly varying nature of wind speed, it is not feasible to rely only on wind power for cheap power production. Also, it is not thriftily possible to construct separate transmission line. However if we integrate wind power with hydro power, we can utilize the maximum possible transmission capacity. Existing hydro power station operating in that area or pumped storage scheme can be used. This paper is an attempt to analyze coordination of wind generation with hydro power in those areas of Pakistan where both wind and hydro power sources exist. In this paper, different issues have been analyzed taking case study of Dargai. This paper is first attempt in Pakistan about integration of wind and hydro power to draw some general conclusions and to point out some areas in which further research can be done.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

S. Awan, M. Ali, M. Asif and A. Ullah, "Hydro and Wind Power Integration: A Case Study of Dargai Station in Pakistan," Energy and Power Engineering, Vol. 4 No. 4, 2012, pp. 203-209. doi: 10.4236/epe.2012.44028.

References

[1] www.aedb.org.pk
[2] A. Jaderstrom, “Coordinated Regulation of Wind Power and Hydro Power with Separate Ownership,” Master’s Degree Project, Department of Electrical Engineering, Royal Institute of Technology, Stockholm, 2004.
[3] M. V. Deshpande, “Elements of Electrical Power System Design,” 3rd Edition, Wheeler Publishers, New Delhi, 1985, p. 342.
[4] J. Matevosyan, “On the Coordination of Wind and Hydro Power,” The International Workshop on Large Scale Integration of Wind Power into Power Systems as well as on Transmission Networks for Offshore Wind Farms, Sweden, 2008.
[5] J. Matevosyan, Z. Bockarjova, M. Zima and L. Soder, “Sharing of Profit from Coordinated Planning and Bidding of Hydro and Wind Power,” IEEE Transaction on Power Systems, Vol. 25, No. 3, 2009, pp. 1663-1673.
[6] K.-O. Vogstad, H. Holttnen, A. Botterud and J. O. G. Tande, “System Benefits of Coordinating Wind Power and Hydro Power in Deregulating Market,” Proceeding of Wind Power for the 21st Century, Kasel, 2000.
[7] H. Holttnen, “Wind Hydro Integration on a Large Hydro System,” UWIG Wind Hydro Integration Workshop, Portland, 21 March 2007
[8] J. Matevosyan, M. Olsson and L. Soder, “Hydro Power Planning Coordinated with Wind Power in Areas with Congestion Problems for Trading on the Spot and the Regulating Market,” Electrical Power Systems Research, Vol. 79, 2009, pp. 39-48. doi:10.1016/j.epsr.2008.05.019
[9] M. Ali, J. Matesovyan, J. V. Milanovic and L. Soder, “Effect of Wake Consideration on Estimated cost of Wind Energy Curtailment,” 8th International Workshop on Large Scale Integration of Wind Power, Bremen, 14-15 October 2009.
[10] A. Hayat and J. Ahmad, “A Study of Wind Power Potential at Dargai,” Pakistan Meteorology Department Technical Report No. PMD 02/2009, 2009
[11] I. Shah, “Operating Hydro Power Stations of KPK,” Report of Hydro Planning WAPDA Department, Lahore, 2010.
[12] J. Matevosyan, “Wind Power Integration in Power System with Transmission Bottleneck,” Royal Institute of Technology, Stockholm, 2007
[13] M. Olsson, J. Matevosyan and L. Soder, “Short Term Hydro Power Planning Coordinated with Wind Power in Areas with Cogestion Problems,” Proceedings of 2006 International Workshop on Large Scale Integration of wind Power and Transmission Networks for Offshore Wind Farms, Delft, 26-28 October 2006
[14] K.-O. Vogstad, “Utilizing the Complementary Characteristics of Wind Power and Hydro Power through Coordinate Hydro Production Scheduling Using EMPS Model,” Proceeding of Nordic Wind Energy Conference, Trondheim, 13-14 March 2000.
[15] W. Youssef, “Hybrid Wind-Hydro Power Plant,” New York, 2000.
[16] S. Papaefthimiou, E. Karamanou and S. Papathanassiou, “Operating Policies for Wind pumped-Storage Hybrid Power Stations in Islands Grids,” IET Renewable Power Generation, Vol. 3, No. 3, 2009, pp. 293-307. doi:10.1049/iet-rpg.2008.0071
[17] A. Saket and A. Etemad-Shahidi, “Wave Energy Potential along the Northern Coasts of the Gulf of Oman,” Iran Renewable Energy, Vol. 40, No. 1, 2012, pp. 90-97. doi:10.1016/j.renene.2011.09.024
[18] N. A. Zaighama, Z. A. Nayyarb and N. Hisamuddin, “Review of Geothermal Energy Resources in Pakistan,” Renewable and Sustainable Energy Reviews, Vol. 13, No. 1, 2009, pp. 223-232. doi:10.1016/j.rser.2007.07.010

  
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