Fault Analysis and its Impact on Grid-connected Photovoltaic Systems Performance
A thorough and authoritative discussion of how to use fault analysis to prevent grid failures
In Fault Analysis and its Impact on Grid-connected Photovoltaic Systems Performance, a team of distinguished engineers deliver an insightful and concise analysis on how engineers can use fault analysis to estimate and ensure reliability in grid-connected photovoltaic systems. The editors explore how failure data can be used to identify how power electronics-based power systems operate and how they can help to perform risk analysis and reduce the likelihood and frequency of failure.
The book explains how to apply different fault detection techniques–including signal and image processing, fault tolerant approaches–and explores the impact of faults in grid-connected photovoltaic systems. It offers contributions from noted experts in the field and is fully updated to include the latest technologies and approaches. Readers will also find:
* A failure mode effect classification approach for distributed generation systems and their components
* Explanations of advanced machine learning approaches with significant market potential and real-world relevance
* A consideration of the issues pertaining to the integration of power electronics converters with distributed generation systems in grid-connected environments
* Treatments of Io T-based monitoring, ageing detection for capacitors, image and signal processing approaches, and standards for failure modes and criticality analyses
Perfect for manufacturers and engineers working in the power electronics-based power system and smart grid sectors, Fault Analysis and its Impact on Grid- connected Photovoltaic Systems Performance will also earn a place in the libraries of distributed generation companies facing issues in operation and maintenance.
Table of Content
About the Editors
List of Contributors
Preface
Chapter 1: Overview and Impact of Faults in Grid Connected PV systems
Mohammed Ali Khan
Chapter 2: Aging Detection for Capacitors in Power Electronic Converters
Zhaoyang Zhao, Pooya Davari, Huai Wang
Chapter 3: Photovoltaic Module Fault. Part 1: Detection with Image Processing Approaches
V S Bharath Kurukuru, Ahteshamul Haque
Chapter 4: Photovoltaic Module Fault. Part 2: Detection with Quantitative-Model Approach
V S Bharath Kurukuru, Ahteshamul Haque
Chapter 5: Failure Mode Effect Analysis of Power Semiconductors in a Grid Connected Converter
V S Bharath Kurukuru, Irfan Khan
Chapter 6: Fault Classification Approach for Grid-Tied Photovoltaic Plant
V S Bharath Kurukuru, Ahteshamul Haque
Chapter 7: System-Level Condition Monitoring Approach for Fault Detection in Photovoltaic Systems
Zahraoui Younes, Ibrahim Alhamrouni, Barry P. Hayes2, Saad Mekhilef
Chapter 8: Fault Tolerant Converter Design for Photovoltaic System
Azra Malik, Ahteshamul Haque
Chapter 9: Io T based Monitoring and Management for Photovoltaic System
Azra Malik, Ahteshamul Haque, V S Bharath Kurukuru
Index
About the author
Ahteshamul Haque, Ph D, is an Associate Professor at the Department of Electrical Engineering in Jamia Millia Islamia, a Central University in New Delhi, India. He was awarded the Outstanding Engineer award in 2019 by the IEEE Power & Energy Society.
Saad Mekhilef is a Distinguished Professor at the School of Science, Computing and Engineering Technologies, Swinburne University of Technology, Australia. He is also a Chartered Engineer and a Fellow of the Institute of Electrical and Electronics Engineers (IEEE).