Abstract
Load flow is one of the most significant aspects to consider while studying and analyzing power system functioning. A comprehensive study of load flow analysis at the Government College of Technology (GCT) powerhouse is offered in this research. The Electrical Transient Analyzer Program (ETAP) software is used to construct a case study of modelling and simulation of the actual power distribution network (Version: 19.1). A comparison of common load flow approaches for power distribution is also offered. This evaluation provides and compares numerical and practical approaches such as Adaptive Newton-Raphson, Newton-Raphson, and Fast Decoupled. The study is an analysis of high voltage substations to loads utilizing ETAP software. The capabilities and usefulness of load flow evaluation are proved by applying ETAP simulation findings to the actual distributed power system of GCT, Coimbatore. ETAP makes easy the conversion of traditional to a smart grid.
Publisher
Inventive Research Organization
Subject
Materials Chemistry,Economics and Econometrics,Media Technology,Forestry
Reference11 articles.
1. [1] IEEE Std 399-1997 IEEE Recommended Practice for Industrial and Commercial Power Systems Analysis.
2. [2] Rohit Kapahi, February-2013, “Load Flow Analysis of 132 kV substation using ETAP Software”, International Journal of Scientific & Engineering Research, Volume 4, Issue 2, ISSN 2229-5518.
3. [3] Assad Abu-Jasser,2021,” Power Flow Analysis of a 22/0.4kV Distribution Transformer Using ETAP Software Case Study: Al FAIROZ Residential Area in the Gaza City”, International Conference on Electric Power Engineering – Palestine (ICEPE- P) 978-1-6654-3459-1/20, IEEE, DOI: 10.1109/ICEPE- P51568.2021.9423482.
4. [4] Muhammad Aman Ullah, April 2017,” Load flow, voltage stability & short circuit analyses and Remedies for a 1240 MW combined cycle power plant using ETAP”, Research gate Conference Paper, DOI: 10.1109/ICIEECT.2017.7916568.
5. [5] Keith Brown.et al, 2012, “Interactive Simulation of Power Systems: ETAP applications and techniques”, IEEE, pp.1930-1941