An Overview on Power System Load Sharing Approaches
Keywords:
Controller, Frequency Relay, Load Shedding, Monitoring, Simulation, Traditional Load SheddingAbstract
Load shedding refers to a system for which electric energy demand is distributed among several power sources. Load shedding is used to reduce the strain on the energy source to the greatest extent possible when the energy demand exceeds what the power source can supply. A service provider sells power to a client. Traditional load shedding methods, and even under voltage regulation, have a longer reaction time and are inconsistent in properly distributing load in the case of any interruptions or failures. This causes an increase or reduction in load, resulting in an inability to meet the energy demand. The study, titled Intelligent Load Shedding, focused on a more contemporary approach to load shedding. A thorough comparison of conventional versus intelligent load shedding methods was conducted from the perspectives of operation design, engineering and implementation. It consumes remained revealed that the intelligent technique of load shedding overcomes all of the disadvantages of traditional techniques, is extremely efficient, and requires very little maintenance.
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References
. Klingler T. Sharing the load. J Libr Adm. 1999; [2]. Arul PG, Ramachandaramurthy VK, Rajkumar RK. Control strategies for a hybrid renewable energy system: A review. Renewable and Sustainable Energy Reviews. 2015.
. McCormack T, Karaikovic E, Gaines RW. The load sharing classification of spine fractures. Spine (Phila Pa 1976). 1994;
. Marwali MN, Jung JW, Keyhani A. Control of distributed generation systems - Part II: Load sharing control. IEEE Trans Power Electron. 2004;
. Majumder R. Modeling , Stability Analysis and Control of Microgrid . Control. 2010;
. Han H, Hou X, Yang J, Wu J, Su M, Guerrero JM. Review of power sharing control strategies for islanding operation of AC microgrids. IEEE Trans Smart Grid. 2016;
. Guerrero JM, García de Vicuña L, Matas J, Castilla M, Miret J. Output impedance design of parallel-connected UPS inverters with wireless load-sharing control. IEEE Trans Ind Electron. 2005;
. Lim CT. R L R L R L. Packag Technol. 2004;1(65):678– 83.
. Sao CK, Lehn PW. Control and power management of converter fed microgrids. IEEE Trans Power Syst. 2008; [10]. Balogh L. Paralleling Power: Choosing and Applying the Best Technique for Load Sharing. 2003;31.
