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Abstract

Abstract:This research work is present in Indian energy sector, however, has constraints of resources, capital, technology and environment raising issues of energy security. The traditional electrical power system model in the Gujarat (India) involves centrally-located power plants and a vast web of transmission and distribution networks, which make up the electrical grid. Although this model has been employed for many decades, the flaws associated with these systems have contributed to environmental degradation, unstable power, poor power quality, higher transmission and distribution losses, and higher tariff threats to public health and economic instability. A series of measured are required to meet the situation, one of which is increased focus on renewable energy sources and is improving the efficiency of highly inefficient Indian distribution and transmission networks. Both these measure are to be complemented with implementation of smart grid technology. Keywords:Smart Grid, Intelligent meter, Balancing of Grid, Renewable sources. 

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How to Cite
Raval, M., Dwivedi, D. V., & Aparnathi, R. (2014). The Case Study of Optimization of DG System in Jamnagar District. International Journal of Emerging Trends in Science and Technology, 1(01). Retrieved from http://igmpublication.org/ijetst.in/index.php/ijetst/article/view/10

References

[1] R.Ramakumar and P.Chiradeja, “Distributed generation and renewable energy systems”,in Proc.37th Intersociety Energy Conversion Engineering Conference (IECEC), pp.716-724,2002.
[2] P. Chiradeja and R. Ramakumar, “A review of distributed generation and storage,” in Proc. 31st Annual Frontiers of Power Conf., Stillwater, UK,pp. VIII 1–11, 1998.
[3] T. Hoff and D. S. Shugar, “The value of gridsupportphotovoltaics in reducing distribution system losses,” IEEE Transactions Energy Conversion, vol. 10, pp. 569–576, Sept.1995.
[4] G. Joos, B.T. Ooi, D. McGillis, F.D. Galiana and R.Marceau, “The Potential of Distributed Generation to Provide Ancillary Services”, IEEE Power Engineering Society Summer Meeting, pp 1762-1767, 2000.
[5] P. Chiradeja, “Benefit of Distributed Generation: A Line Loss Reduction Analysis”, IEEE/PES Transmission and Distribution Conference &P.Ajay-D- Malraj,S.Senthilkumar,J. Raja, ET AL. / ELEKTRIKA, 10(2), 2008, 41-48 Exhibition: Asia and Pacific, Dalian China, pp.1-5,2005.
[6] Y. G. Hegazy, M. M. A. Salama, and A. Y.Chikhan“ Adequacy Assessment of Distributed Generation Systems Using Monte Carlo Simulation”, IEEE Transactions on Power Systems,Vol. 18, No. 1, pp.48-52, February 2003.
[7] Koen J. P. Macken, Math H. J. Bollen, and Ronnie J. M. Belmans,“ Mitigation of Voltage Dips Through Distributed Generation Systems”, IEEE Transactions on Industry Applications, Vol. 40,No. 6, pp. 1686- 1693, November/December 2004.
[8] AleksandarPregelj, MiroslavBegovic and AjeetRohatgi, “Quantitative Techniques for Analysis of Large Data Sets in Renewable Distributed Generation”, IEEE Transactions on Power Systems,Vol. 19, No. 3, 1277- 1285, August 2004.
[9] Caisheng Wang, and M. HashemNehrirV,“Analytical Approaches for Optimal Placement of Distributed Generation Sources in Power Systems”,IEEE Transactions on Power Systems, Vol. 19, No.4, pp. 2068 – 2076, November 2004.
[10] Manish Raval, Ph.D. Scholar, Electrical Engg. Department, Pacific University, Udaipur, Rajasthan, India &Dr.VedvyasDwivedi, Supervisor , “Commencing the FACTS in Variable Energy Sources Network to Optimizing Existing Transmission System with Stability, Published in “International Journal of Emerging Trends in Electrical and Electronics (IJETEE),Vol.2,Issue-1,on April 2013”.