{"title":"Fuzzy Logic Based Coordinated Voltage Control for Distribution Network with Distributed Generations","authors":"T. Juhana Hashim, A. Mohamed","volume":79,"journal":"International Journal of Electrical and Computer Engineering","pagesStart":806,"pagesEnd":812,"ISSN":"1307-6892","URL":"https:\/\/publications.waset.org\/pdf\/16254","abstract":"
This paper discusses the implementation of a fuzzy logic based coordinated voltage control for a distribution system connected with distributed generations (DGs). The connection of DGs has created a challenge for the distribution network operators to keep the voltage in the system within its acceptable limits. Intelligent centralized or coordinated voltage control schemes have proven to be more reliable due to its ability to provide more control and coordination with the communication with other network devices. In this work, voltage control using fuzzy logic by coordinating three methods of control, power factor control, on load tap changer and generation curtailment is implemented on a distribution network test system. The results show that the fuzzy logic based coordination is able to keep the voltage within its allowable limits. <\/p>\r\n","references":"[1] N. Jenkins, R. Allan, P. Crossley, D. Kirschen and G. Strbac,\u201c\r\nEmbedded Generation\u201d The Institution of Electrical Engineers,2000, pp.\r\n11\u201318.\r\n[2] S.Santoso, N.Saraf, G.K.Venayagamoorthy, \u201cIntelligent Techniques for\r\nPlanning Distributed Generation Systems, \u201cIEEE PES General Meeting,\r\n2007.\r\n[3] R.A. Shalwala, J.A.M Blejis, \u201cVoltage Control Scheme Using Fuzzy\r\nLogic for Residential Area Networks with PV Generators in Saudi\r\nArabia,\u201d IEEE PES Conference on Innovative Smart Grid Technologies\r\n(ISGT), pp. 1-6, Jan 2011.\r\n[4] D.N. Gaonkar, G.N. Pillai, \u201cFuzzy Logic based Coordinated Voltage\r\nRegulation Method for Distribution System with Multiple Synchronous\r\nGenerators ,\u201d Joint International Conference on Power Electronics,\r\nDrives and Energy Systems & 2010 Power India, pp. 1-5, New Delhi,\r\nDec 2010.\r\n[5] Y.Li, N.C. Kumar, S.K. Guang, \u201cImproved Coordinated Control of Onload\r\nTap Changers,\u201d 20th Australasian Universities Power Engineering\r\nConference (AUPEC), Dec 2010.\r\n[6] S. Puri, R.Khanna, \u201cIntelligent Control for a Radial Distribution System\r\nwith Distributed Generation,\u201d International Conference on Energy,\r\nAutomation and Signal (ICEAS), Dec. 2011.\r\n[7] G. Strbac, N.Jenkins, M. Hird, P.Djapic, G. Nicholson, \u201cIntegration of\r\nOperation of Embedded Generation and Distribution Networks,\u201d\r\nUniversity of Manchester Institute of Science and Technology (UMIST),\r\n2002.\r\n[8] F.O. Karray, C. De Silva, Soft Computing and Intelligent Systems\r\nDesign, Theory, Tools and Application, Essex, England: Pearson\r\nEducation Limited, 2004, ch. 3.\r\n[9] L.A. Zadeh, \u201cFuzzy Sets,\u201d Inform Control, vol. 8, pp.338 \u2013 353, 1965.\r\n[10] \"Technical Guidebook for the Connection of Generation to the\r\nDistribution Network,\u201c TNB Research Sdn Bhd Malaysia in\r\ncollaboration with APS Sdn Bhd Malaysia and RWE Npower PLC, UK,\r\n2005.\r\n[11] Irish Distribution Code: ESB Networks Std v 1.2, 2002.\r\n[12] A.E. Kiprakis, A.R.Wallace,\u201c Maximising Energy Capture from\r\nDistributed Generators in Weak Networks,\u201c IEE Proceedings on\r\nGeneration, Transmission and Distribution, No.151, pp.611-618, 2004.\r\n[13] L. Tang, \u201cDetermination of Distibuted Generation Capacity from a\r\nVoltage Regulation Perspective,\u201c IEEE PES Transmission, Distribution\r\nConference and Exposition, pp. 1-8, Orlando Florida, May 2012.\r\n[14] \u201dDistribution Planning Guidelines,\u201c Planning and Asset Development\r\nDept, Distribution Division,Tenaga Nasional Berhad, Malaysia, 2008.\r\n[15] I. Leibe, \"Integration of Wind Power in Medium Voltage Networks \u2013\r\nVoltage Control and Losses,\" PHD in Electrical Engineering, Dept. of\r\nMeasurement Technology and Industrial Electrical Engineering, Lund\r\nUniversity, 2011.\r\n[16] F.A.Viawan,D. Karlsson,\u201cCoordinated Voltage and Reactive power\r\ncontrol in the presence of distributed generation,\u201c Power and Energy\r\nSociety General Meeting - Conversion and Delivery of Electrical Energy\r\nin the 21st Century, pp. 1-6, 2008.\r\n[17] T.Sansawatt, L.F. Ochoa, G.P. Harrison, \u201cIntegrating Distributed\r\nGeneration using Decentralised Voltage Regulation, \u201cIEEE Power and\r\nEnergy Society General Meeting, p.p1-6, 2010.\r\n[18] S. Fink,\u201c Wind Energy Curtailment Case Studies- May 2008- May\r\n2009,\u201c Exeter Associates Inc, Columbia, Maryland 2008-2009.\r\n[19] T.J. Hashim, A. Mohamed, H. Shareef, \u201cComparisons between\r\nDecentralized Voltage Control Methods in Managing Voltage Rise\r\nIssues in Active Distribution Networks,\u201d Przeglad Elektrotechniczny\r\n(Electrical Review), pp. 214- 218, Feb. 2013.","publisher":"World Academy of Science, Engineering and Technology","index":"Open Science Index 79, 2013"}