Placement of Fixed Size Diesel Generators in IEEE 12 Bus Radial Distribution System to Improve Voltage Stability
Sandeep Kumar K J1, Lokesh M2, Mohan N3, A.D.Kulkarni4

1Sandeep Kumar K J*, Research Scholar, VTU & Assistant Professor, Electrical & Electronics Engineering Department, NIE Institute of Technology, Mysuru, India.
2Lokesh M, Research Scholar, VTU & Assistant Professor, Electrical & Electronics Engineering Department, NIE Institute of Technology, Mysuru, India.
3Dr. Mohan N, Assistant Professor, Electrical and Electronics Engineering Department, JSS S&T University, Mysuru.
4Dr. A D Kulkarni, Retd.Professor Electrical & Electronics Engineering Department, NIE, Mysuru, India. 

Manuscript received on October 13, 2019. | Revised Manuscript received on 21 October, 2019. | Manuscript published on November 10, 2019. | PP: 1080-1086 | Volume-9 Issue-1, November 2019. | Retrieval Number: A4329119119/2019©BEIESP | DOI: 10.35940/ijitee.A4329.119119
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Abstract: Distributed Generation (DG) is small capacity generating units directly associated to the distributed system. With the penetration of distributed generators nearby the consumer load center support to the distribution system will be enhanced. The Distributed Generation involves both Renewable & sustainable sources of energy to engender power in order to appease the ever increasing energy requirement. Suitable location and capacity of DG units will benefit the achievement of active power system network. The voltage profile and Real power line loss and Reactive power line loss reduction can also be improved with suitable location and allocation of DG. This work proposes a new Simulation method for the placement of fixed Size Diesel Generator in IEEE 12 bus radial distribution system stationed on Voltage stability index and Transmission line losses. This index is progressed by acknowledging steady state node voltages cited in Per Unit.
Keywords: Voltage Stability, ABVSI, IEEE 12BUS & MATLAB/SIMULINK
Scope of the Article: System Integration