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Reseach Article

Load flow Analysis using Backward Forward Sweep Method

Published on July 2018 by Bhavana Jangid, Smarajit Ghosh
International Conference on Advances in Emerging Technology
Foundation of Computer Science USA
ICAET2017 - Number 5
July 2018
Authors: Bhavana Jangid, Smarajit Ghosh
1105087d-109e-444d-82e0-94fed5ad073c

Bhavana Jangid, Smarajit Ghosh . Load flow Analysis using Backward Forward Sweep Method. International Conference on Advances in Emerging Technology. ICAET2017, 5 (July 2018), 9-13.

@article{
author = { Bhavana Jangid, Smarajit Ghosh },
title = { Load flow Analysis using Backward Forward Sweep Method },
journal = { International Conference on Advances in Emerging Technology },
issue_date = { July 2018 },
volume = { ICAET2017 },
number = { 5 },
month = { July },
year = { 2018 },
issn = 0975-8887,
pages = { 9-13 },
numpages = 5,
url = { /proceedings/icaet2017/number5/29666-7124/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 International Conference on Advances in Emerging Technology
%A Bhavana Jangid
%A Smarajit Ghosh
%T Load flow Analysis using Backward Forward Sweep Method
%J International Conference on Advances in Emerging Technology
%@ 0975-8887
%V ICAET2017
%N 5
%P 9-13
%D 2018
%I International Journal of Computer Applications
Abstract

The proposed method provides convergence approach which is fast and time efficient. The sequential numbering of the branches are not required in this methodology which makes it much easier from computation point of view. The backward forward sweep method for load flow analysis needed less memory as compared to conventional method. The computation is very simple and fast. Effectiveness of the following method is tested on IEEE 15 bus system.

References
  1. U. Eminoglu, M. H. Hocaoglu. 2008. Distribution Systems Forward/Backward Sweep based Power Flow Algorithms: A Review and Comparison Study. Electric Power Components and Systems, 37:1, 91-110.
  2. J. A Michline Rupa, S. Ganesh. 2014. Power flow analysis for radial distribution system using Backward/forward sweep method. International Journal of Electrical, Computer Electronics and communication Engineering Vol:8,No:10.
  3. S. C. Tripathy, G. Durga Prasad, O. P Malik and G. S. Hope, 1982. Load flow for ill-conditioned power system by a Newton like Method. IEEE Trans. PAS-101, October !982, pp. 3648-365.
  4. Chiang, H. D. 1991. A decoupled load flow method for distribution power network algorithums, analysis and convergence study. Electrical power and Energy Systems,13(3), 130-138.
  5. D. Shrimohammadi, H. W Hong, A. Semlyen, G. W. Luo. 1998. A compensation-based power flow method for weakly meshed distribution and transmission networks. IEEE Transactions on Power Systems, Vol. 3, No. 2, May 1988
  6. Fan Zhang, C. S. Cheng . 2002. A modified Newton method for radial distribution system power flow analysis
  7. Jen-Hao teng. 2003. A direct approach for distribution system load flow solutions.
  8. F. V. Gomes. 2006. A new distribution system reconfiguration approach using optimum power flow and sensitivity analysis for loss reduction
  9. A. Augugliaro, L. Dusonchet 2010 A Backward Sweep Method for Power Flow solution in distribution networks. Electrical power and energy systems 32(2010) 271-280.
  10. Chen T. H, M. S Chen, K. J. Hwang, P. Kotas and A. Chebli. 1991. Distribution system power flow analysis-A rigid approach.
  11. G. X. LUO*, A. Semlyen. Efficient Load Flow for Large Weakly Meshed Networks. IEEE Transactions on Power Systems, Vol. 5, No. 4, November 1990.
  12. D. Das, D. P. Kothari, A. Kalam. Simple and efficient method for load flow solution of radial distribution networks, Electrical power and energy system 17(5) (1995) 335-346.
Index Terms

Computer Science
Information Sciences

Keywords

Radial Distribution Network Load Flow Analysis Forward-backward Sweep