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2020 | OriginalPaper | Chapter

Comparative Study on Load Frequency Control of a Single Microgrid Coupled with Thermal Power Plant Using Fuzzy and PID Controllers

Authors : Ranjit Singh, Shazia Hasan

Published in: Modelling, Simulation and Intelligent Computing

Publisher: Springer Singapore

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Abstract

In this paper, thermal power plant is connected to a microgrid and frequency deviation is observed and the results of the fuzzy and PID controllers are compared with fuzzy and the best controller giving best results is considered. Also, the different parameters are taken care for maintaining stability of the system like area control error (ACE) of individual areas, load demand, etc. This paper focuses on reducing error in quick time that developed due to mismatch between generation and demand. Because if error is not minimized in quick time, then stability of the system is affected and also the power flow through the tie-lines is not uniform. Software used is MATLAB 2014b. Results are shown and compared using necessary graphs. The Simulink model is prepared by selecting the transfer function blocks from the library and assigning the values to them. PID controller is used to minimize the error in quick time. Also, PID controller is replaced with fuzzy PID controller.

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Shariatzadeh F, Kumar N, Srivastava A (2016) Optimal control algorithms for reconfiguration of shipboard microgrid distribution system using intelligent techniques. IEEE Trans. Indus Appl. https://doi.org/10.1109/tia.2016.2601558

Salam AA, Mohamed A, Hannan MA (2008) Technical challenges on microgrids. ARPN J Eng Appl Sci 3(6)

Singh VP, Mohanty SR, Kishor N, Ray PK (2013) Robust H-infinity load frequency control in hybrid distributed generation system. Int J Electr Power Energy Syst 46:294–305CrossRef

Bevrani H, Habibi F, Babahajyani P, Watanabe M, Mitani Y (2012) Intelligent frequency control in an acmicrogrid: online PSO-based fuzzy tuning approach. IEEE Trans Smart Grid 3(4):1935–1944CrossRef

Lal DK, Barisal AK, Tripathy M (2016) Grey wolf optimizer algorithm based fuzzy PID controller for AGC of multi-area power system with TCPS. Procedia Comput Sci 92:99–105CrossRef

John T, Lam SP (2017) Voltage and frequency control during microgrid islanding in a multi-area multi-microgrid system. IET Gener Transm Distrib IEEE Trans 11(6):420

Golsorkhi MS, Hill DJ, Karshenas HR (2018) Distributed voltage control and power management of networked microgrids. IEEE J Emerg Sel Topics Power Electron 6(4)

Ferraro P, Crisostomi E, Shorten R, Milano F (2018) Stochastic frequency control of grid-connected microgrids. IEEE Trans Power Syst 33(5)

Department of Energy Office of Electricity Delivery and Energy Reliability. (2012). Summary Report: 2012 DOEMicrogridWorkshop

10.

McDermott TE, Dugan RC (2002) Distributed generation impact on reliability and power quality. In: Proceedings of IEEE conference on rural electric power, pp D3–D37

11.

Chiredeja P, Ramakumar R (2004) An approach to quantify the technical benefits of distributed generation. IEEE Trans Energy Convers 19(4):746–773

12.

Brow RE, Pan J, Feng X, Koutlev K (2001) Sitting distributed generation to defer T&D expansion. In: Proceedings of 2001 IEEE PES transmission and distribution conference on expo, vol 2, pp 622–627

13.

Lasseter R, Akhil A, Marnay C, Stephens J, Dagle J, Guttromson R, Meliopoulous AS, Yinger R, Eto J (2002) White paper on integration of distributed energy resources. The CERTS MICROGRID concept consultant report California Energy Commission, U.S. Department of Energy, Berkeley, CA, LBNL-0829, Apr 2002

14.

Hatziargyiou N, Asano H, Iravani R, Marnay C (2007) Microgrids. IEEE Power Energy Mag 5(4):78–94CrossRef

15.

Kelly J (2010) Microgrids: a critical component of U.S. Energy Policy. http://www.slideshare.net/galvinpower/john-kellymicrogrid-briefing-on-capitol-hill-5202010, 20 May 2010

16.

Lasseter RH (2002) Microgrid. In: Proceedings of IEEE power engineering society winter meeting, vol 1. New York, pp 305–308

17.

Katiraei F, Iravani MR, Lehn PW (2005) Micro-grid autonomous operation during and subsequent to islanding process. IEEE Trans Power Del 20(1)

18.

Piagi P, Lasseter RH (2006) Autonomous control of microgrids. In: IEEE PES meeting, Montreal, June 2006

19.

Chakraborty S, Simões MG (2009) Experimental evaluation of active filtering in a single-phase high-frequency AC microgrid. IEEE Trans Energy Convers 24(3):673–682CrossRef

20.

Chakraborty S, Weiss MD, Simões MG (2007) Distributed intelligent energy management system for a single phase high frequency AC Microgrid. IEEE Trans Ind Electron 54(1):97–109CrossRef

21.

Kakigano H, Miura Y, Ise T, Momose T, Hayakawa H (2008) Fundamental characteristics of DC microgrid for residential houses with cogeneration system in each house. In: Proceedings of IEEE PESGM, 08GM0500

22.

Kwasinski A, Onwuchekwa CN (2011) Dynamic behavior and stabilization of DC microgrids with instantaneous constant-power loads. IEEE Trans Power Electron 26(3):822–834CrossRef

23.

Kwasinski A (2011) Quantitative evaluation of DC microgrids availability: effect of system architecture and converter topology design choices. IEEE Trans Power Electron 26(3):835–851CrossRef

24.

Balog RS, Krein PT (2011) Bus selection in multibus DC microgrid. IEEE Trans Power Electron 26(3):860–867CrossRef

25.

Kakigano H, Miura Y, Ise T (2010) Loss evaluation of DC distribution for residential houses compared with AC system. In: The 2010 international power electronics conference-ECCE Asia-(IPECSapporo), 22A1-3, pp 480–486

26.

Kakigano H, Miura Y, Ise T (2010) Low-voltage bipolar-type DC microgrid for super high quality distribution. IEEE Trans Power Electron 25(12):3066–3075CrossRef

27.

Kakigano H, Miura Y, Ise T (2009) Configuration and control of a DC microgrid for residential houses. In: Transmission and distribution conference and exposition. Asia and Pacific, pp 1–4, Oct (2009)

28.

Kakigano H, Miura Y, Ise T (2013) Distribution voltage control for a DC microgrid using fuzzy control and a gain—scheduling technique. IEEE Trans Power Electron 28(5):2246–2258CrossRef

29.

Lopes JAP, Vasiljevska J, Ferreira R, Moreira C, Madureira A (2009) Advanced architectures and control concepts for more microgrids

30.

Madureira AG, Pereira JC, Gil NJ, Lopes JAP, Korres GN, Hatziargyriou ND (2011) Advanced control and management functionalities for multi-microgrids. Eur Trans Electr Power 21:1159–1177CrossRef

31.

Palizban O, Kauhaniemi K, Guerrero JM Microgrids inactive network management—Part I: hierarchical control, energy storage

Title: Comparative Study on Load Frequency Control of a Single Microgrid Coupled with Thermal Power Plant Using Fuzzy and PID Controllers
Authors: Ranjit Singh
Shazia Hasan
Publisher: Springer Singapore
Book: Modelling, Simulation and Intelligent Computing
Print ISBN: 978-981-15-4774-4

Electronic ISBN: 978-981-15-4775-1

Copyright Year: 2020
DOI: https://doi.org/10.1007/978-981-15-4775-1_3

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