Optimal placement and sizing of DG and DSTATCOM in a Radial Distributed Systems Based on Analytical Technique
|International Journal of Electrical and Electronics Engineering|
|© 2020 by SSRG - IJEEE Journal|
|Volume 7 Issue 8|
|Year of Publication : 2020|
|Authors : Nitish, Srishail K Bilgundi, Dr. Pradeepa H|
How to Cite?
Nitish, Srishail K Bilgundi, Dr. Pradeepa H, "Optimal placement and sizing of DG and DSTATCOM in a Radial Distributed Systems Based on Analytical Technique," SSRG International Journal of Electrical and Electronics Engineering, vol. 7, no. 8, pp. 11-14, 2020. Crossref, https://doi.org/10.14445/23488379/IJEEE-V7I8P103
For rapid growing demand,employment of technologies like smart grid and Distribution generation technology can be a potential solution. Generally, the distribution system is planned for radial power flow, but with the installation of a Distributed Generation, thesystem's flow of powerbecomes bidirectional. Many factors affecting DG allocations are the availability of natural resources, types of DG technologies, distribution system, capacity, and quantity of DG units. Distribution Generations can be beneficial in many ways when integrated into a distribution network, depending upon their location and size. The placement of DSTATCOM is fast growing technology to improve the system with sustained power flow to the consumers. It will enact as a loss reducer in the modern era. This paper focuses on using the Power Stability Index(PSI) method for optimal position and optimal capacity of DGs and D-statcomin the distribution network. The proposed analytic technique is validated by applying it to the IEEE33 bus system for single and multiple DG units and Dstatcom. Programming is done by using Matlab software.
Distribution network, distribution generation (DG), Load flow, power stability index (PSI), DSTATCOM
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