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Computational Paradigm Techniques for Enhancing Electric Power Quality /

MARC Record from marc_columbia

Record ID marc_columbia/Columbia-extract-20221130-030.mrc:111140180:5762
Source marc_columbia
Download Link /show-records/marc_columbia/Columbia-extract-20221130-030.mrc:111140180:5762?format=raw

LEADER: 05762cam a2200673 i 4500
001 14748591
005 20220604234456.0
006 m o d
007 cr |||||||||||
008 181203s2019 nyu ob 001 0 eng
010 $a 2020692701
035 $a(OCoLC)on1076946771
035 $a(NNC)14748591
040 $aDLC$beng$erda$cDLC$dTYFRS$dYDX$dMERER$dCOO$dOCLCO$dN$T$dEBLCP$dK6U$dOCLCO
019 $a1080201611
020 $a9780429442711$qebook
020 $a0429442718
020 $a9780429809903$qebook
020 $a0429809905
020 $z9781138336995$qhardback : acid-free paper
020 $a9780429809897$q(electronic bk. : Mobipocket)
020 $a0429809891$q(electronic bk. : Mobipocket)
020 $a9780429809910$q(electronic bk. : PDF)
020 $a0429809913$q(electronic bk. : PDF)
020 $z1138336998
035 $a(OCoLC)1076946771$z(OCoLC)1080201611
050 00 $aTK1010
072 7 $aMAT$x000000$2bisacsh
072 7 $aTEC$x008000$2bisacsh
072 7 $aTEC$x031020$2bisacsh
072 7 $aTHRB$2bicssc
082 00 $a621.31/042$223
049 $aZCUA
100 1 $aKumar, L. Ashok,$eauthor.
245 10 $aComputational paradigm techniques for enhancing electric power quality /$cL. Ashok Kumar and S Albert Alexander.
250 $aFirst edition.
264 1 $aNew York, NY :$bCRC Press/Taylor and Francis Group,$c[2019]
300 $a1 online resource
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
504 $aIncludes bibliographical references and index.
520 $a"The book provides the complete solution for the power quality improvement with intelligent techniques along with simulation exercises and experimental results. Apart from all the major verticals, it also provides the need of power quality improvement in renewable energy systems and implementation of power quality improvement practices"--$cProvided by publisher.
588 $aDescription based on print version record.
505 0 $aCover; Half Title; Title Page; Copyright Page; Table of Contents; Preface; Acknowledgments; Authors; Abbreviations; 1: Introduction; 1.1 General Classes of Power Quality Problems; 1.2 Types of Power Quality Problems; 1.2.1 Voltage Sags (Dips); 1.2.2 Voltage Swells; 1.2.3 Long-Duration Overvoltages; 1.2.4 Undervoltages; 1.2.5 Interruptions; 1.2.6 Transients; 1.2.7 Voltage Unbalance; 1.2.8 Voltage Fluctuations; 1.2.9 Harmonics; 1.2.10 Electrical Noise; 1.2.11 Transient Overvoltage; 1.2.11.1 Capacitor Switching; 1.2.11.2 Magnification of Capacitor-Switching Transients
505 8 $a1.2.11.3 Restrikes during Capacitor Deenergizing1.2.12 Lightning; 1.2.13 Ferroresonance; 1.3 Principles of Overvoltage Protection; 1.3.1 Devices for Overvoltage Protection; 1.3.1.1 Surge Arresters and Transient Voltage Surge Suppressors; 1.3.1.2 Isolation Transformers; 1.3.1.3 Low-Pass Filters; 1.3.1.4 Low-Impedance Power Conditioners; 1.3.1.5 Utility Surge Arresters; 1.3.2 Utility Capacitor-Switching Transients; 1.3.2.1 Switching Times; 1.3.2.2 Pre-insertion Resistors; 1.3.2.3 Synchronous Closing; 1.3.2.4 Capacitor Location; 1.3.2.5 Utility System Lightning Protection; 1.3.2.6 Shielding
505 8 $a1.3.2.7 Line Arresters1.4 Origin of Short Interruptions; 1.4.1 Terminology; 1.4.1.1 Interruption; 1.4.1.2 Sags (Dips); 1.4.1.3 Swells; 1.5 Monitoring of Short Interruptions; 1.5.1 Sag; 1.5.2 Swell; 1.5.3 Influence of Equipment; 1.5.3.1 Single Phase Tripping; 1.5.3.2 Benefits of Single-Pole Tripping; 1.5.3.3 Single-Pole Tripping Concerns and Solutions; 1.6 Description of Long-Duration Power Quality Issues; 1.6.1 Transients; 1.6.2 Short-Duration Voltage Variations; 1.6.3 Long-Duration Voltage Variations; 1.6.4 Voltage Unbalance; 1.6.5 Waveform Distortion; 1.6.6 Voltage Fluctuations
505 8 $a1.6.7 Power Frequency Variations2: Mitigation Techniques; 2.1 Introduction; 2.1.1 Series Controllers; 2.1.2 Shunt Controllers-STATCOM; 2.1.3 Combined Shunt and Series Controllers; 2.1.3.1 Unified Power Flow Controller; 2.1.3.2 Interline Power Flow Controller; 2.2 Application of FACTS Controllers in Distribution Systems; 2.3 Introduction to Long-Duration Voltage Variations; 2.3.1 Observation of System Performance; 2.3.2 Principle of Regulating Voltage; 2.4 Devices for Voltage Regulation; 2.4.1 Electronic Voltage Regulator; 2.4.2 Zener-Controlled Transistor Voltage Regulator
505 8 $a2.4.3 Zener-Controlled Transistor Series Voltage Regulator2.4.3.1 Operation; 2.4.3.2 Limitations; 2.4.4 Zener-Controlled Transistor Shunt Voltage Regulator; 2.4.4.1 Operation; 2.4.4.2 Limitations; 2.4.5 Discrete Transistor Voltage Regulator; 2.4.5.1 Limitations of Transistor Voltage Regulators; 2.4.6 Electromechanical Regulator; 2.4.7 Automatic Voltage Regulator; 2.4.8 Constant Voltage Transformer; 2.4.9 Utility Voltage Regulator Application; 2.5 Step-Voltage Regulator Basic Operation; 2.5.1 Voltage Regulator Applications; 2.5.2 Voltage Regulator Sizing and Connection
650 0 $aElectric power production$xQuality control$xData processing.
650 6 $aÉlectricité$xProduction$xQualité$xContrôle$xInformatique.
650 7 $aMATHEMATICS / General$2bisacsh
650 7 $aTECHNOLOGY / Electronics / General$2bisacsh
655 0 $aElectronic books.
655 4 $aElectronic books.
700 1 $aAlbert Alexander, S.$eauthor.
776 08 $iPrint version:$tComputational paradigm techniques for enhancing electric power quality$dNew York, NY : CRC Press/Taylor & Francis Group, [2019]$z9781138336995 (hardback : acid-free paper)$w(DLC) 2018033182
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio14748591$zTaylor & Francis eBooks
852 8 $blweb$hEBOOKS