Performance Enhancement for Microgrids Under the Demand Uncertainties with the Presence of Multiple DGs Through Stochast

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ORIGINAL ARTICLE

Performance Enhancement for Microgrids Under the Demand Uncertainties with the Presence of Multiple DGs Through Stochastic Ranking Algorithm Thiruvenkadam Srinivasan1,2 · Xiancheng Wang2 · Hyung ‑Jin Kim3 · In‑Ho Ra2 Received: 10 July 2020 / Revised: 16 September 2020 / Accepted: 27 October 2020 © The Korean Institute of Electrical Engineers 2020

Abstract The integration of Distributed Generators (DGs) in the reconfigurable microgrid is evolved to enhance the power delivery performance. The DGs are categorized as controllable and uncontrollable based on their power generation control behaviors. In addition to the control behavior, under the uncertain conditions of the microgrid, the performance of DGs is limited due to their respective drawbacks. Therefore, the identification of the most suitable DG under uncertain situation becomes more critical. This paper investigates the performance behavior of the hybrid DG, which uses the benefits of two kinds of DGs and overcomes their limitations. This work addresses five objective functions namely minimization of power loss, total generation cost, total emission cost and voltage deviation, and the maximization of the percentage DG penetration. The performance investigation of DGs is carried out for the system under five different test cases, including the uncertainty in power supply and demand. The modeling of the demand variation is done with the support of Probability Density Function (PDF). The many objective multi-indicator Stochastic Ranking Algorithm (SRA) is used for the optimization purposes. The simulations are performed on IEEE 33-bus Radial Distribution System (RDS) to assess the capability of the proposed investigation. Furthermore, the proposed strategy is applied under 24-h timely varying load pattern of IEEE 33-bus RDS to verify its applicability in uncertain load conditions. Moreover, the performance enhancement realization with the presence of hybrid DG is observed from the obtained simulation results. Keywords Distributed generators · Distribution system · Microgrid · Optimization · Reconfiguration · Stochastic ranking algorithm

* In‑Ho Ra [email protected] Thiruvenkadam Srinivasan [email protected] Xiancheng Wang [email protected] Hyung ‑Jin Kim [email protected] 1

Department of EEE, P. A. College of Engineering and Technology, Pollachi, India

2

School of Computer, Information and Communication Engineering, Kunsan National University, Gunsan, South Korea

3

Department of IT Applied System, Chonbuk National University, Jeonju, South Korea

List of Symbols kcloud Reduction factor due to the clouds present Glum Global solar irradiance clear atmospheric conditions in a specific hour of a generic day in the year KBos Reduction factor Gstc Global solar irradiance PPVr Rated power of the PVES plant vd, vw, and vr Cut-in, cut-off and rated wind speed of a wind plant, respectively vh Actual wind speed PWTr Installed capacity of the wind turbine Ii Branch current of the ith line in amps.

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Performance Enhancement for Microgrids Under the Demand Uncertainties with the Presence of Multiple DGs Through Stochast

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