Power Quality Issues: Current Harmonics, 1st Edition (e-Book) book cover

Power Quality Issues

Current Harmonics, 1st Edition

By Suresh Mikkili, Anup Kumar Panda

CRC Press

160 pages | 108 B/W Illus.

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Description

Power Quality Issues: Current Harmonics provides solutions for the mitigation of power quality problems related to harmonics. Focusing on active power filters (APFs) due to their excellent harmonic and reactive power compensation in two-wire (single phase), three-wire (three-phase without neutral), and four-wire (three-phase with neutral) AC power networks with nonlinear loads, the text:

  • Introduces the APF technology, describing various APF configurations and offering guidelines for the selection of APFs for specific application considerations
  • Compares shunt active filter (SHAF) control strategies for extracting three-phase reference currents, evaluating their performance under a number of source voltage conditions using a proportional-integral (PI) controller
  • Presents PI controller-based SHAF instantaneous active and reactive power (p-q) and instantaneous active and reactive current (Id-Iq) control strategies, supplying detailed MATLAB®/Simulink simulation results
  • Proposes SHAF control strategies using type 1 and type 2 fuzzy logic controllers (FLCs) with different fuzzy membership functions (MFs), analyzing their harmonic mitigation and DC link voltage regulation
  • Verifies the proposed type 2 FLC-based SHAF control strategies with trapezoidal, triangular, and Gaussian fuzzy MFs using RT-LAB, a real-time digital simulation software from OPAL-RT Technologies

Power Quality Issues: Current Harmonics is a useful resource for those tackling electrical power quality challenges. The compensation techniques described in this book alleviate harmonic issues that can distort voltage waveforms, fry a building’s wiring, trigger nuisance tripping, overheat transformer units, and cause random end-user equipment failure.

Table of Contents

Introduction

Research Background

Power Quality Issues

Solutions for Mitigation of Power Quality Problems

Introduction to APF Technology

Categorization of Active Power Filter

Technical and Economic Considerations

Selection Considerations of APFs

Introduction to Active Power Filter Control Strategies

Motivation

Book Objectives

Book Structure

Performance Analysis of SHAF Control Strategies Using a PI Controller

Shunt Active Filter Basic Compensation Principle

Active Power Filter Control Strategies

Introduction to DC Link Voltage Regulation

System Performance of p-q and Id-Iq Control Strategies with PI Controller Using MATLAB/Simulink

System Performance of p-q and Id-Iq Control Strategies with PI Controller Using a Real-Time Digital Simulator

Summary

Performance Analysis of SHAF Control Strategies Using Type 1 FLC with Different Fuzzy MFs

Type 1 Fuzzy Logic Controller

System Performance of Type 1 FLC-Based p-q Control Strategy with Different Fuzzy MFs Using MATLAB

System Performance of Type 1 FLC-Based Id-Iq Control Strategy with Different Fuzzy MFs Using MATLAB

System Performance of Type 1 FLC-Based p-q Control Strategy with Different Fuzzy MFs Using a Real-Time Digital Simulator

System Performance of Type 1 FLC-Based Id-Iq Control Strategy with Different Fuzzy MFs Using a Real-Time Digital Simulator

Comparative Study

Summary

Performance Analysis of SHAF Control Strategies Using Type 2 FLC with Different Fuzzy MFs

Introduction to Type 2 FLC

The Structure of Type 2 FLC

Type 2 Fuzzy Inference System with Different Fuzzy MFs

System Performance of Type 2 FLC-Based p-q Control Strategy with Different Fuzzy MFs Using MATLAB

System Performance of Type 2 FLC-Based Id-Iq Control Strategy with Different Fuzzy MFs Using MATLAB

Comparative Study

Summary

Introduction to RT-LAB and Real-Time Implementation of Type 2 FLC-Based SHAF Control Strategies

Introduction to RT-LAB

Evolution of Real-Time Simulators

RT-LAB Simulator Architecture

How RT-LAB Works

PCI OP5142 Configuration

System Performance of Type 2 FLC-Based p-q Control Strategy with Different Fuzzy MFs Using a Real-Time Digital Simulator

System Performance of Type 2 FLC-Based Id-Iq Control Strategy with Different Fuzzy MFs Using a Real-Time Digital Simulators

Comparative Study

Summary

Conclusions and Future Scope

Conclusions

Future Scope

About the Authors

Suresh Mikkili is currently an assistant professor and head of the Electrical and Electronics Engineering Department at the National Institute of Technology Goa, Ponda, India. He holds a Ph.D and M.Tech in electrical engineering from the National Institute of Technology Rourkela and a B.Tech in electrical and electronics engineering from the Sasi Institute of Technology and Engineering (SITE) at Tadepalligudem, India, which is affiliated with Jawaharlal Nehru Technological University, Kakinada, India. Dr. Mikkili is a professional member of the Institute of Electrical and Electronics Engineers. His research has been widely published in reputed international journals and conferences. Anup Kumar Panda is currently a professor in the Department of Electrical Engineering at the National Institute of Technology Rourkela, India. He holds a Ph.D from Utkal University, Bhubaneswar, India; M.Tech in power electronics and drives from the Indian Institute of Technology, Kharagpur; and B.Tech in electrical engineering from Sambalpur University, India. Dr. Panda is a fellow of the Institute of Engineering and Technology, UK; Institute of Engineers, India; and the Institute of Electronics and Telecommunication Engineering. He is also a senior member of the Institute of Electrical and Electronics Engineers, US. He has published more than 85 articles in journals and conferences.

Subject Categories

BISAC Subject Codes/Headings:
TEC008000
TECHNOLOGY & ENGINEERING / Electronics / General
TEC031020
TECHNOLOGY & ENGINEERING / Power Resources / Electrical