Optimal Siting of Distributed Generation Unit in Power Distribution System considering Voltage Profile and Power Losses

Many underdeveloped countries are facing acute shortage of electric power and short term measures are important to consider to address the problems of power outage, power plant failures, and disaster areas. Distributed generation (DG) is a promising approach for such cases as it allows quick on-site...

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Published inMathematical problems in engineering Vol. 2022; pp. 1 - 14
Main Authors Aman, Muhammad Aamir, Ren, Xin Cheng, Tareen, Wajahat Ullah Khan, Khan, Muhammad Abbas, Anjum, Muhammad Rizwan, Hashmi, Anas M., Ali, Haider, Bari, Inam, Khan, Jehanzeb, Ahmad, Sanaullah
Format Journal Article
LanguageEnglish
Published New York Hindawi 10.01.2022
Hindawi Limited
Subjects
Developing countries
Distributed generation
Electric potential
Electric power
Electric power distribution
Electric power loss
Electric power systems
Electricity
Electricity distribution
Energy resources
Engineering
Fossil fuels
Generators
LDCs
Methods
Nuclear energy
Nuclear power plants
Optimization
Optimization techniques
Power plants
R&D
Radial distribution
Renewable resources
Research & development
Voltage
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Summary:Many underdeveloped countries are facing acute shortage of electric power and short term measures are important to consider to address the problems of power outage, power plant failures, and disaster areas. Distributed generation (DG) is a promising approach for such cases as it allows quick on-site installation and generation of electric power. Injection of DG can improve the system voltage profile and also reduce the system's total power losses. However, the placement and sizing of the DG unit is an optimization problem in the radial distribution system. As a test case, this study examines voltage profile improvement and system power losses for an 11 KV residential feeder at the Abdul Rehman Baba grid station in Pakistan, which is modelled using the Electrical Transient Analyzer Program (ETAP). For various scenarios, several tests are conducted to assess the effects of DG on the distribution system. The results show that proper design considerations of size and location of a DG, to be inserted in to the system, lead to significant reduction in power losses and improvement in voltage profile and thus improvement in the overall efficiency of the power system. The projections of this work can be used to optimize the expansion of a power system and tackling different issues related to voltage profile in distribution sector worldwide.
ISSN:1024-123X
1563-5147
DOI:10.1155/2022/5638407