IJTEEE
International Journal of Technology Enhancements and Emerging Engineering Research (ISSN 2347-4289)
PREVIOUS PUBLICATIONS



IJTEEE >> Volume 3 - Issue 12, December 2015 Edition



International Journal of Technology Enhancements and Emerging Engineering Research  
International Journal of Technology Enhancements and Emerging Engineering Research

Website: http://www.ijteee.org

ISSN 2347-4289



Impacts Of Future Loads On Power Distribution System And Processing Using Distributer Genera-tors

[Full Text]

 

AUTHOR(S)

Abdulfatah Badran, Dr. Salaheldeen Kamal, Dr. Abdrabbou El-Sinaary

 

KEYWORDS

Keywords: distributer generators (DG), Impacts of Distributed Generation Penetration and future electrical loads impacts.

 

ABSTRACT

ABSTRACT: This paper discusses the impacts of future loads behavior and its types on power distribution system. It is seen that increases the power losses, voltage drop and transformers loading ratio. The neglect of these increases in loads can lead to several problems. So it is necessary toface and solve these problems by pre-expectationfor the amount of these future increases in electrical loads . This paper has provided various types of electrical loads behavior in the future through the timeline for those loads , also provided a real example as a part of the electric distribution network in Egypt.Future loads estimation & its impacts on power system distribution study has been performed.This paper provides a solution to this problem by using distributer generators Technique.

 

REFERENCES

[1] R. E. Brown and L. A. Freeman, “Analyzing the Reliability Impact ofDistributed Generation”, Proceedings of the IEEE Summer Meeting, pp.1013-1018, July 2001.

[2] P. P. Baker, “Determining the Impact of Distributed Generation on Power Systems: Part 1 - Radial Distribution Systems”, Proceedings of IEEE PES Summer Meeting, Vol. 3, pp. 1645 -1656 Seattle, 2000.

[3] F. L. Alvarado, “Locational Aspects of Distributed Generation”, Proceedings of IEEE PES Winter Meeting, Volume 1, pp. 140, Ohio, 2001.

[4] G.X. Luo and A. Semlyen, "Efficient Load Flow for Large Weakly Meshed Networks", IEEE Trans on Power Systems, Vol. 5, No. 4, November 1990.

[5] D. Shirmohammadi, H.W. Hong, A. Semlyen and G.X. Luo, "A Compensation-Based Power Flow Method for Weakly Meshed Distribution and Transmission Networks", IEEE Trans on Power Systems, Vol.3, No.2, May 1988.

[6] R. Billinton and R. Allan, “Reliability Evaluation of Engineering Systems: Concepts and Techniques”, Plenum Press – New York, Second Edition, 1992.

[7] PSS/E 25, On-line Documentation, Schenectady, US: Power Technologies,Inc., December 1997.

[8] J. G. Slootweg, W. L. Kling, “Impacts of Distributed Generation on PowerSystem Transient Stability”, in Proc 2002 IEEE Power EngineeringSociety Summer meeting.

[9] Donnelly, M.K., Dagle, J.E., Trudnowski, D.J., Rogers, G.J., “Impact ofthe Distributed Utility on Transmission System Stability”, IEEE Transactions of Power Systems, Vol. 11, No. 2, pp. 741-746, 1996.

[10] N. Janssens, “Impact of Power Flows on Inter-Area Oscillations and Mitigation by Means of SVC’s or Q-PSS”, in Proc 2002 14th Power Systems Computation Conference