Passive Islanding Detection Technique for Integrated Distributed Generation at Zero Power Balanced Islanding

  • Ch Rami Reddy K L University, Guntur, India.
  • K Harinadha Reddy Lakireddy Bali Reddy College of Engineering
Keywords: Islanding detection, integrated distributed generation, ROCOPSV, balanced islanding, NDZ

Abstract

Renewable power generation systems have more advantages in the integrated power system compared to the generation due to fossil fuels because of their advantages like reliability and power quality. One of the important problems due to such renewable distributed generation (DG) system is an unintentional islanding. Islanding is caused if DG supplies power to load after disconnecting from the grid. As per the DG interconnection standards, it is required to detect the islanding within two seconds after islanding with the equipments connected to it. In this paper a new passive islanding detection method is presented for wind DG integrated power system with rate of change of positive sequence voltage (ROCOPSV) and rate of change of positive sequence current (ROCOPSC). The islanding is detected if both the values of ROCOPSV and ROCONSV are more than a predefined threshold value. The test system results carried on MATLAB shows the performance of the proposed method for various islanding and non islanding events with different power imbalances. The results conclude that, this method can detect islanding even at balanced islanding with zero non detection zone (NDZ).

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Author Biography

Ch Rami Reddy, K L University, Guntur, India.

Dr Ch Rami Reddy

Completed B. Tech, M. Tech and Ph. D from JNT University kakinada, Indinian Institute of Technology Kharagpur and Indian Institute of Technology, Delhi respectively. Guided and awarded 3 Ph.Ds in electrical engineering and currently 12 Ph. D s are working. Published several international and national journals.

Published
12-09-2019
How to Cite
Reddy, C. R., & Reddy, K. H. (2019). Passive Islanding Detection Technique for Integrated Distributed Generation at Zero Power Balanced Islanding. International Journal of Integrated Engineering, 11(6), 126-137. Retrieved from https://publisher.uthm.edu.my/ojs/index.php/ijie/article/view/2875
Section
Articles