Please use this identifier to cite or link to this item: http://hdl.handle.net/10266/5825
Title: Optimal Placing and Sizing of Distributed Generation Units in Radial Distribution Networks
Authors: Bhattacharya, Tamoghna
Supervisor: Ghosh, Smarajit
Bhullar, Suman
Keywords: RDN;DG;Optimization;Jaya Algorithm;LSF;VSI
Issue Date: 23-Sep-2019
Abstract: In today’s world, the lion’s share of electricity demand is met by thermal power plants globally. Thermal power plants, mainly coal fired and, in some cases, gas fired come with some major issues. The first and foremost issue is, fossil fuels come with limited stockpile. Extensive usage of coal is leading to rapid declination of the stock. The second major problem is the massive amount of pollution caused by burning the fossil fuels especially coal. The third issue is these plants generate electricity in a centralized fashion, dispatching the energy to distant areas leads to losses in transmission and distribution. The concept of Distributed Generation is capable of dealing with all three aforementioned major issues. By implementing Distributed Generation (DG)s, small scale decentralized generation of electricity is possible by installing small sized renewable energy sources like solar panels, small wind turbines, biomass plants or non-polluting non-renewable sources such as small seized gas turbines directly to the low voltage side of the distribution system. In this research, the attempt has been made to find the optimal locations to place single DG units as well as multiple DG units having optimal size of each DG unit so that the system loss becomes minimized using a fairly new optimization algorithm. The outcomes show effectiveness of the proposed method and the results have been compared to recent works of similar fashion.
URI: http://hdl.handle.net/10266/5825
Appears in Collections:Masters Theses@EIED

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