Signal Processing of Power Quality Disturbances
暫譯: 電力品質擾動的信號處理
Math H. J. Bollen, Irene Y. H. Gu
- 出版商: IEEE
- 出版日期: 2006-06-01
- 售價: $7,060
- 貴賓價: 9.5 折 $6,707
- 語言: 英文
- 頁數: 861
- 裝訂: Hardcover
- ISBN: 0471731684
- ISBN-13: 9780471731689
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商品描述
Description
Bridging the gap between power quality and signal processing
This innovative new text brings together two leading experts, one from signal processing and the other from power quality. Combining their fields of expertise, they set forth and investigate various types of power quality disturbances, how measurements of these disturbances are processed and interpreted, and, finally, the use and interpretation of power quality standards documents.
As a practical aid to readers, the authors make a clear distinction between two types of power quality disturbances:
- Variations: disturbances that are continuously present
- Events: disturbances that occur occasionally
A complete analysis and full set of tools are provided for each type of disturbance:
- Detailed examination of the origin of the disturbance
- Signal processing measurement techniques, including advanced techniques and those techniques set forth in standards documents
- Interpretation and analysis of measurement data
- Methods for further processing the features extracted from the signal processing into site and system indices
The depth of coverage is outstanding: the authors present and analyze material that is not covered in the standards nor found in the scientific literature.
This text is intended for two groups of readers: students and researchers in power engineering who need to use signal processing techniques for power system applications, and students and researchers in signal processing who need to perform power system disturbance analyses and diagnostics. It is also highly recommended for any engineer or utility professional involved in power quality monitoring.
Table of Contents
PREFACE.
ACKNOWLEDGMENTS.
1 INTRODUCTION.
1.1 Modern View of Power Systems.
1.2 Power Quality.
1.3 Signal Processing and Power Quality.
1.4 Electromagnetic Compatibility Standards.
1.5 Overview of Power Quality Standards.
1.6 Compatibility Between Equipment and Supply.
1.7 Distributed Generation.
1.8 Conclusions.
1.9 About This Book.
2 ORIGIN OF POWER QUALITY VARIATIONS.
2.1 Voltage Frequency Variations.
2.2 Voltage Magnitude Variations.
2.3 Voltage Unbalance.
2.4 Voltage Fluctuations and Light Flicker.
2.5 Waveform Distortion.
2.6 Summary and Conclusions.
3 PROCESSING OF STATIONARY SIGNALS.
3.1 Overview of Methods.
3.2 Parameters That Characterize Variations.
3.3 Power Quality Indices.
3.4 Frequency-Domain Analysis and Signal Transformation.
3.5 Estimation of Harmonics and Interharmonics.
3.6 Estimation of Broadband Spectrum.
3.7 Summary and Conclusions.
3.8 Further Reading.
4 PROCESSING OF NONSTATIONARY SIGNALS.
4.1 Overview of Some Nonstationary Power Quality Data Analysis Methods.
4.2 Discrete STFT for Analyzing Time-Evolving Signal Components.
4.3 Discrete Wavelet Transforms for Time–Scale Analysis of Disturbances.
4.4 Block-Based Modeling.
4.5 Models Directly Applicable to Nonstationary Data.
4.6 Summary and Conclusion.
4.7 Further Reading.
5 STATISTICS OF VARIATIONS.
5.1 From Features to System Indices.
5.2 Time Aggregation.
5.3 Characteristics Versus Time.
5.4 Site Indices.
5.5 System Indices.
5.6 Power Quality Objectives.
5.7 Summary and Conclusions.
6 ORIGIN OF POWER QUALITY EVENTS.
6.1 Interruptions.
6.2 Voltage Dips.
6.3 Transients.
6.4 Summary and Conclusions.
7 TRIGGERING AND SEGMENTATION.
7.1 Overview of Existing Methods.
7.2 Basic Concepts of Triggering and Segmentation.
7.3 Triggering Methods.
7.4 Segmentation.
7.5 Summary and Conclusions.
8 CHARACTERIZATION OF POWER QUALITY EVENTS.
8.1 Voltage Magnitude Versus Time.
8.2 Phase Angle Versus Time.
8.3 Three-Phase Characteristics Versus Time.
8.4 Distortion During Event.
8.5 Single-Event Indices: Interruptions.
8.6 Single-Event Indices: Voltage Dips.
8.7 Single-Event Indices: Voltage Swells.
8.8 Single-Event Indices Based on Three-Phase Characteristics.
8.9 Additional Information from Dips and Interruptions.
8.10 Transients.
8.11 Summary and Conclusions.
9 EVENT CLASSIFICATION.
9.1 Overview of Machine Data Learning Methods for Event Classification.
9.2 Typical Steps Used in Classification System.
9.3 Learning Machines Using Linear Discriminants.
9.4 Learning and Classification Using Probability Distributions.
9.5 Learning and Classification Using Artificial Neural Networks.
9.6 Learning and Classification Using Support Vector Machines.
9.7 Rule-Based Expert Systems for Classification of Power System Events.
9.8 Summary and Conclusions.
10 EVENT STATISTICS.
10.1 Interruptions.
10.2 Voltage Dips: Site Indices.
10.3 Voltage Dips: Time Aggregation.
10.4 Voltage Dips: System Indices.
10.5 Summary and Conclusions.
11 CONCLUSIONS.
11.1 Events and Variations.
11.2 Power Quality Variations.
11.3 Power Quality Events.
11.4 Itemization of Power Quality.
11.5 Signal-Processing Needs.
APPENDIX A IEC STANDARDS ON POWER QUALITY.
APPENDIX B IEEE STANDARDS ON POWER QUALITY.
BIBLIOGRAPHY.
INDEX.
商品描述(中文翻譯)
**描述**
彌合電力品質與信號處理之間的差距
這本創新的新書匯集了兩位領先的專家,一位來自信號處理,另一位來自電力品質。結合他們的專業領域,他們提出並研究各種電力品質擾動的類型,這些擾動的測量如何被處理和解釋,最後,電力品質標準文件的使用和解釋。
作為對讀者的實用幫助,作者清楚地區分了兩種類型的電力品質擾動:
- 變化:持續存在的擾動
- 事件:偶爾發生的擾動
為每種類型的擾動提供了完整的分析和全套工具:
- 擾動來源的詳細檢查
- 信號處理測量技術,包括先進技術和標準文件中提出的技術
- 測量數據的解釋和分析
- 將從信號處理中提取的特徵進一步處理為現場和系統指標的方法
涵蓋的深度非常出色:作者呈現和分析的材料在標準中未涵蓋,也未在科學文獻中找到。
這本書的目標讀者為兩組:需要使用信號處理技術進行電力系統應用的電力工程學生和研究人員,以及需要進行電力系統擾動分析和診斷的信號處理學生和研究人員。它也非常推薦給任何參與電力品質監測的工程師或公用事業專業人士。
**目錄**
前言
致謝
1 介紹
1.1 現代電力系統觀
1.2 電力品質
1.3 信號處理與電力品質
1.4 電磁相容性標準
1.5 電力品質標準概述
1.6 設備與供應之間的相容性
1.7 分散式發電
1.8 結論
1.9 本書介紹
2 電力品質變化的來源
2.1 電壓頻率變化
2.2 電壓幅度變化
2.3 電壓不平衡
2.4 電壓波動與燈光閃爍
2.5 波形失真
2.6 總結與結論
3 穩態信號的處理
3.1 方法概述
3.2 特徵參數
3.3 電力品質指標
3.4 頻域分析與信號轉換
3.5 諧波與互諧波的估算
3.6 寬頻譜的估算
3.7 總結與結論
3.8 進一步閱讀
4 非穩態信號的處理
4.1 一些非穩態電力品質數據分析方法概述
4.2 用於分析時間演變信號組件的離散STFT
4.3 用於擾動的時間-尺度分析的離散小波變換
4.4 基於區塊的建模
4.5 直接適用於非穩態數據的模型
4.6 總結與結論
4.7 進一步閱讀
5 變化的統計
5.1 從特徵到系統指標
5.2 時間聚合
5.3 特徵與時間的關係
5.4 現場指標
5.5 系統指標
5.6 電力品質目標
5.7 總結與結論
6 電力品質事件的來源
6.1 中斷
6.2 電壓下陷
6.3 瞬變
6.4 總結與結論
7 觸發與分段
7.1 現有方法概述
7.2 觸發與分段的基本概念
7.3 觸發方法
7.4 分段
7.5 總結與結論
8 電力品質事件的特徵
8.1 電壓幅度與時間的關係
8.2 相位角與時間的關係
8.3 三相特徵與時間的關係
8.4 事件期間的失真
8.5 單事件指標:中斷
8.6 單事件指標:電壓下陷
8.7 單事件指標:電壓上升
8.8 基於三相特徵的單事件指標
8.9 來自下陷和中斷的附加信息
8.10 瞬變
8.11 總結與結論
9 事件分類
9.1 機器數據學習方法的概述
9.2 分類系統中的典型步驟
9.3 使用線性判別的學習機器
9.4 使用概率分佈的學習與分類
9.5 使用人工神經網絡的學習與分類
9.6 使用支持向量機的學習與分類
9.7 用於電力系統事件分類的基於規則的專家系統
9.8 總結與結論
10 事件統計
10.1 中斷
10.2 電壓下陷:現場指標
10.3 電壓下陷:時間聚合
10.4 電壓下陷:系統指標
10.5 總結與結論
11 結論
11.1 事件與變化
11.2 電力品質變化
11.3 電力品質事件
11.4 電力品質的項目化
11.5 信號處理需求
附錄A IEC電力品質標準
附錄B IEEE電力品質標準
參考文獻
索引
