An adaptive vector control method for inverter‐based stand‐alone microgrids considering voltage reduction and load shedding schemes-Reference-Cited by-同舟云学术

An adaptive vector control method for inverter‐based stand‐alone microgrids considering voltage reduction and load shedding schemes

Published:2023-04-11 Issue:12 Volume:17 Page:2703-2717
ISSN:1751-8687
Container-title:IET Generation, Transmission & Distribution
language:en
Short-container-title:IET Generation Trans & Dist

Author:

Jha Sumit Kumar¹²,Kumar Deepak¹,Tripathi Prabhat Ranjan¹,Appasani Bhargav³,Zawbaa Hossam M.⁴⁵⁶^ORCID,Kamel Salah⁷

Affiliation:

1. Department of Electrical and Electronics Engineering Birla Institute of Technology, Mesra Ranchi India

2. Department of Electrical and Electronics Engineering Presidency University Bengaluru Karnataka India

3. School of Electronics Engineering Kalinga Institute of Industrial Technology Bhubaneswar India

4. Faculty of Computers and Artificial Intelligence Beni‐Suef University Beni‐Suef Egypt

5. CeADAR ‐ Ireland's Centre for AI and Applied Data Analytics Technological University Dublin Dublin Ireland

6. Applied Science Research Center Applied Science Private University Amman Jordan

7. Electrical Engineering Department Faculty of Engineering Aswan University Aswan Egypt

Abstract

AbstractThe droop mechanism is widely utilized in a stand‐alone microgrid (MG) to regulate power‐sharing among distributed generators (DG). However, over the years, the droop phenomena are continually modified to lessen the deviation in voltage and frequency parameters caused due to classical droop. This study suggests computing the droop coefficient for voltage–current (V–I) droop to take into account for proportional power distribution among DGs. In grid utility networks, the conservation voltage reduction (CVR) strategy is widely used to curtail the use of energy. Hence, this paper investigates the CVR's performance for stand‐alone MG by performing the adaptive vector control scheme in the two‐phase d–q reference frame. In addition to it, the paper is intended to develop a coordinated control strategy for stand‐alone MG involving classical P–f droop and self‐sustained V–I droop employed to perform the function of CVR during peak demand and overloading conditions. Further, a load‐shedding control approach is also considered to cut out some segments of load during overloading conditions to operate the MG in the stable zone. The validation of the proposed strategy is conducted on MATLAB/Simulink software.

Publisher

Institution of Engineering and Technology (IET)

Subject

Electrical and Electronic Engineering,Energy Engineering and Power Technology,Control and Systems Engineering

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