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Optimal Power Flow Using Grass Hopper Optimization Algorithm for Generator Fuel Cost and Voltage Profile

A.I. Modi1 , T.V. Rabari2

Section:Research Paper, Product Type: Journal Paper
Volume-7 , Issue-3 , Page no. 238-241, Mar-2019

CrossRef-DOI:   https://doi.org/10.26438/ijcse/v7i3.238241

Online published on Mar 31, 2019

Copyright © A.I. Modi, T.V. Rabari . This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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IEEE Style Citation: A.I. Modi, T.V. Rabari, “Optimal Power Flow Using Grass Hopper Optimization Algorithm for Generator Fuel Cost and Voltage Profile,” International Journal of Computer Sciences and Engineering, Vol.7, Issue.3, pp.238-241, 2019.

MLA Style Citation: A.I. Modi, T.V. Rabari "Optimal Power Flow Using Grass Hopper Optimization Algorithm for Generator Fuel Cost and Voltage Profile." International Journal of Computer Sciences and Engineering 7.3 (2019): 238-241.

APA Style Citation: A.I. Modi, T.V. Rabari, (2019). Optimal Power Flow Using Grass Hopper Optimization Algorithm for Generator Fuel Cost and Voltage Profile. International Journal of Computer Sciences and Engineering, 7(3), 238-241.

BibTex Style Citation:
@article{Modi_2019,
author = {A.I. Modi, T.V. Rabari},
title = {Optimal Power Flow Using Grass Hopper Optimization Algorithm for Generator Fuel Cost and Voltage Profile},
journal = {International Journal of Computer Sciences and Engineering},
issue_date = {3 2019},
volume = {7},
Issue = {3},
month = {3},
year = {2019},
issn = {2347-2693},
pages = {238-241},
url = {https://www.ijcseonline.org/full_paper_view.php?paper_id=3823},
doi = {https://doi.org/10.26438/ijcse/v7i3.238241}
publisher = {IJCSE, Indore, INDIA},
}

RIS Style Citation:
TY - JOUR
DO = {https://doi.org/10.26438/ijcse/v7i3.238241}
UR - https://www.ijcseonline.org/full_paper_view.php?paper_id=3823
TI - Optimal Power Flow Using Grass Hopper Optimization Algorithm for Generator Fuel Cost and Voltage Profile
T2 - International Journal of Computer Sciences and Engineering
AU - A.I. Modi, T.V. Rabari
PY - 2019
DA - 2019/03/31
PB - IJCSE, Indore, INDIA
SP - 238-241
IS - 3
VL - 7
SN - 2347-2693
ER -

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Abstract

In this paper, optimal power flow (OPF) using grass hopper optimization algorithm (GOA) is addressed. OPF is a basic tool for economical and secure operation of power system. Here, the generator fuel cost and voltage profile are considered as main objectives with constraints. The GOA is a metaheuristic swarm based optimization algorithm. It mimics the natural behaviour of grass hopper. The GOA is implemented on IEEE-30 bus system to solve OPF problem. Results show the ability of GOA to reduce the voltage deviation. It demonstrates that the GOA is capable to improve the voltage profile of system buses.

Key-Words / Index Term

optimal power flow, grass hopper optimization algorithm, generator fuel cost and voltage profile, IEEE-30 bus system

References

[1] J. Carpentier, Contribution a l’etude du dispatching economique, Bull. Soc. Franc. Elec. 3 (1962) 431–447.
[2] Mohamed Ebeed, Salah Kamel and Francisco Jurado, Optimal Power Flow Using Recent Optimization Techniques, chapter 7, Classical and Recent Aspects of Power System Optimization, Academic Press (2018) 157-183.
[3] C.M chen, M.A.laughton ,”determination of optimum power system operating conditions under constraints” proceding the institution of power engineers.volume 116.No 2,pp.225-239, 1969.
[4] O alsac, B.stott, “optimal load flow with steady state security” IEEE PES summer meeting EHV/UHVconferenceVancouver,B.C.canadajuly pp.15- 20, 1973.
[5] H.H.Happ ”optimal power dispatch” ” IEEE PES summer meeting EHV/UHV conference Vancouver,B.C.canadajuly pp. 15-20,1973.
[6] David .I.sun,bruce member Ashley member,brian brewer member,arthuges senior member and William tinney fellow consutant, “optimal power flow by newton apporoch” IEEE trans power apparatus and system vol pas- 103 no.10 pp. 2864-2879,oct 1984.
[7] R.mota.palomino,member IEEE, V.H.Quintana,senior member IEEE” A penalty function- linear programing method for solving power system constrainted economic operation problems” ” IEEE trans power apparatus and system vol pas-103 no.6 oct 1984.
[8] Gerald F. Reid, Lawrence Hasdorff , “Economic Dispatch using Quadratic Programming”IEEE Trans. On power appar. And systems vol. pas -92 pp. 2015-2023 , September 13,1972
[9] K. Ponnambalamt, V.H. Quintana ,A. Vannelli , “a fast algorithm for powr system optimization problems using an interior point method” , Transactions on Power Systems, Vol. 7, No. 2,pp.748-759,May 1992
[10] James A. Momoh, S. X. Guo, E. C. Ogbuobiri, and R. Adapa , “the quadratic interior point method solving power system optimization problems” , IEEE Transactions on Power Systems, Vol. 9. No. 3,pp.261- 267, August 1994
[11] I S. Granville J.C.O. Mello A.C.G. Melo, “application of interior point methods to power fowunsolvability” , IEEE Transactions on Power System, Vol.11,No.2,pp. 1096-1103, May 1966
[12] Po- Hung Chen, Hong-Chan Chang, “Large-Scale EconomicDispatch by Genetic Algorithm” , IEEE Transaction on Power System , Vol.10, No.4, pp. 1919-1926,November 1995
[13] Anastasios G. Bakirtzis, Pandel N. Biskas, Christofors E. Zoumas, Vasilios Petridis, “Optimal Power Flow by Enhanced Genetic Algorithm ” ,IEEE Transaction on Power System ,Vol.17,No.2, pp. 229 -236,May 2002
[14] Chao-Lung Chiang, “Improved Genetic Algorithm for Power Economic Dispatch of Units with Valve-Point Effects and Multiple Fuels” , IEEE Transaction on Power System ,Vol 20, No.4, pp. 1690- 1699,November 2005
[15]B.Zhao,C.X.guo,Y.J.cao ”Improved partical swarm optimaization algorithm for OPF problem” IEEE, pp1-6,2004.
[16] L. L. Lai, T. Y. Nieh, D. Vujatovic, Y. N. Ma, Y. P. Lu, Y.W. Yang,H
[17] Braun “Particle Swarm Optimization for Economic Dispatch of units with Non-smooth Input-output Characteristic Functions” ISAP, pp. 499- 503,2005.
[18] F. R. Zaro M. A. Abido “Multi-Objective Particle Swarm Optimization for Optimal Power Flow in a Deregulated Environment of Power Systems” 978-1-4577-1676-8/11, 2011
[19] T. Niknam M.R. Narimani J. Aghaei R. Azizipanah-Abarghooee “Improved particle swarm optimisation for multi-objective optimal power flow considering the cost, loss, emission and voltage stability index” IET generation,Transmission and distribution vol 6,issue.6 pp. 515-527,2012
[20] C. Sumpavakup, I.Srikun and S.Chusanapiputt “A solution to optimal power flow using Artificial Bee Colony algorithm” International Conference on power system technology 978-1-4244-5940-7/10, 2010
[21]KursatAyan,Ulaskilic, Burhan Barakli “Chaotic artificial bee colony algorithm based solution of security and transient stability constrained optimal power flow” Electric power and energy system 64 pp.136- 147,2015
[22] Indrajit N. Trivedi, Pradeep Jangir,Siddharth A. Parmar andNarottamJangir “Optimal power flow with voltage stability improvement and loss reduction in power system using Moth-Flame Optimizer” Neural Computing & Applications, 2016
[23] Florin Capitanescu “Critical review of recent advances and further developments needed in AC optimal power flow” Electrical power system research Vol 136 pp 57-68 ,201
[24] D.H. Wolpert, W.G. Macready, No free lunch theorems for optimization, IEEE transactions on evolutionary computation, 1 (1997) 67-82.
[25] S. Saremi, S. Mirjalili, A. Lewis, Grasshopper optimisation algorithm: theory and application, Adv. Eng. Softw. 105 (2017) 30–47
[26] S.Z. Mirjalili, S. Mirjalili, S. Saremi, H. Faris, I. Aljarah, Grasshopper optimization algorithm for multi-objective optimization problems, Appl. Intell. (2017) 1–16