Development and Implementation of Synchronized Phasor Measurements for Dynamic State Power System Monitoring and Fault Identification-Reference-Cited by-同舟云学术

Development and Implementation of Synchronized Phasor Measurements for Dynamic State Power System Monitoring and Fault Identification

Published:2024-04-01 Issue: Volume: Page:
ISSN:
Container-title:
language:
Short-container-title:

Author:

Ponnala Ravi¹^ORCID,Chakravarthy Muktevi¹^ORCID,Babu P. Vijay²^ORCID,Ch.Leelakrishna ³,M.Kishore ²,Reddy P.Rajasekhara¹

Affiliation:

1. Vasavi College of Engineering(A)

2. Chaitanya Bharathi Institute of Technology(A)

3. G. Narayanamma Institute of Technology and Science

Abstract

Abstract In real time the magnitude and phase angle of the voltage and current signals vary continuously. The measurement of magnitude and phase angles of these signals are very important for the visualization of real-time power systems pictorially and knowing dynamic power flow studies. This work presents the measurement of the voltage and current signal's magnitude and phase angles with time synchronization. The magnitude and phase angle are represented with a single quantity phasor. For the measurement of phasor values two different techniques are used, they are Recursive Discrete Fourier Transform (RDFT), and Non-Recursive Discrete Fourier Transform (NRDFT). With the RDFT the phasor (magnitude and phase angle) values are constant with time variation, with fixed load and constant supply. By varying the load or source the magnitude of the phasor is changed and the phase angle is constant. The values obtained from these results are used for the dynamic power flow calculation of the power system. With the NRDFT the phasor magnitude is constant the phase angle values are varying (rotating) with a speed of (ωt) and with a step of (1/N). The values obtained with this method are used for real-time power system visualization. The values obtained from the RDFT and NRDFT are time-stamped with GPS time. With GPS time stamping, the measurements are time synchronized, and real-time visualization of the power system is obtained.

Publisher

Research Square Platform LLC

Reference17 articles.

1. Continuous power flow calculation method for three-phase isolated microgrid considering detailed source and load models;Ju YT;Power Syst Technol,2022

2. Reliability enhancement of electrical power system including impacts of renewable energy sources: a comprehensive review;Sachin Kumar RK

3. Effects of Distributed Generation on Electric Power Systems;Dulău LI;Procedia Technol,2014

4. Wakti MH, Multa Putranto L, Hadi SP, Yasirroni M, Derana Marsiano AF PMU Location Determination in a Hybrid PMU-SCADA System, 2020 12th International Conference on Information Technology and Electrical Engineering (ICITEE), Yogyakarta, Indonesia, 2020, pp. 245–250, 10.1109/ICITEE49829.2020.9271728

5. Ponnala R, Chakravarthy M, Lalitha SVNL (2022) Development of Laboratory Model PMU for the Phasor Calculation of Fundamental Component for the Power System Fault Identification Dynamic State and Effective Data System for the Post Disturbance Analysis International Journal of Electrical and Electronics Research, vol 10, issue 4, pp.1306–1314, Dec-