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      KCI등재 SCIE SCOPUS

      Controller Optimization Algorithm for a 12-pulse Voltage Source Converter based HVDC System

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      https://www.riss.kr/link?id=A102876336

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      다국어 초록 (Multilingual Abstract)

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      The paper presents controller optimization algorithm for a 12-pulse voltage source converter (VSC) based high voltage direct current (HVDC) system. To get an optimum algorithm, three methods namely conventional-Zeigler-Nichols, linear-golden section search (GSS) and stochastic-particle swarm optimization (PSO) are applied to control of 12 pulse VSC based HVDC system and simulation results are presented to show the best among the three. The performance results are obtained under various dynamic conditions such as load perturbation, non-linear load condition, and voltage sag, tapped load fault at points-of-common coupling (PCC) and single-line-to ground (SLG) fault at input AC mains. The conventional GSS and PSO algorithm are modified to enhance their performances under dynamic conditions. The results of this study show that modified particle swarm optimization provides the best results in terms of quick response to the dynamic conditions as compared to other optimization methods.
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      The paper presents controller optimization algorithm for a 12-pulse voltage source converter (VSC) based high voltage direct current (HVDC) system. To get an optimum algorithm, three methods namely conventional-Zeigler-Nichols, linear-golden section s...

      The paper presents controller optimization algorithm for a 12-pulse voltage source converter (VSC) based high voltage direct current (HVDC) system. To get an optimum algorithm, three methods namely conventional-Zeigler-Nichols, linear-golden section search (GSS) and stochastic-particle swarm optimization (PSO) are applied to control of 12 pulse VSC based HVDC system and simulation results are presented to show the best among the three. The performance results are obtained under various dynamic conditions such as load perturbation, non-linear load condition, and voltage sag, tapped load fault at points-of-common coupling (PCC) and single-line-to ground (SLG) fault at input AC mains. The conventional GSS and PSO algorithm are modified to enhance their performances under dynamic conditions. The results of this study show that modified particle swarm optimization provides the best results in terms of quick response to the dynamic conditions as compared to other optimization methods.

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      목차 (Table of Contents)

      • Abstract
      • 1. Introduction
      • 2. Power Quality Controller
      • 3. Proposed Optimization Techniques
      • 4. Results and Discussion
      • Abstract
      • 1. Introduction
      • 2. Power Quality Controller
      • 3. Proposed Optimization Techniques
      • 4. Results and Discussion
      • 5. Conclusion
      • References
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      참고문헌 (Reference)

      1 N. Flourentzou, "VSC-Based HVDC Power Transmission Systems : An Overview" 24 (24): 592-602, 2009

      2 C. Du, "Use of VSC-HVDC for Industrial Systems Having Onsite Generation with Frequency Control" 23 (23): 2233-2240, 2008

      3 Pang Hao, "Study on the Control of Shunt Active DC Filter for HVDC Systems" 23 (23): 396-401, 2008

      4 Pang Hao, "Study on the Control of Shunt Active DC Filter for HVDC Systems" 23 (23): 396-401, 2008

      5 Dong Hae Yeom, "Selection of coefficient for equalizer in optical disc drive by golden section search" 56 (56): 657-662, 2010

      6 C. C. Hang, "Refinements of the Ziegler-Nichols tuning formula" 138 (138): 111-118, 1991

      7 N. Mohan, "Power Electronics, Converters, Applications and Design" John Wiley & Sons Inc 2003

      8 Zhi-Hui Zhan, "Orthogonal Learning Particle Swarm Optimization" 15 (15): 832-847, 2011

      9 S. Singh, "Optimized Passive Filter Design Using Modified Particle Swarm Optimization Algorithm for a 12-Pulse Converter-Fed LCI-Synchronous Motor Drive" 50 (50): 2681-2689, 2014

      10 N. Flourentzou, "Optimized Modulation for AC-DC Harmonic Immunity in VSC HVDC Transmission" 25 (25): 1713-1720, 2010

      1 N. Flourentzou, "VSC-Based HVDC Power Transmission Systems : An Overview" 24 (24): 592-602, 2009

      2 C. Du, "Use of VSC-HVDC for Industrial Systems Having Onsite Generation with Frequency Control" 23 (23): 2233-2240, 2008

      3 Pang Hao, "Study on the Control of Shunt Active DC Filter for HVDC Systems" 23 (23): 396-401, 2008

      4 Pang Hao, "Study on the Control of Shunt Active DC Filter for HVDC Systems" 23 (23): 396-401, 2008

      5 Dong Hae Yeom, "Selection of coefficient for equalizer in optical disc drive by golden section search" 56 (56): 657-662, 2010

      6 C. C. Hang, "Refinements of the Ziegler-Nichols tuning formula" 138 (138): 111-118, 1991

      7 N. Mohan, "Power Electronics, Converters, Applications and Design" John Wiley & Sons Inc 2003

      8 Zhi-Hui Zhan, "Orthogonal Learning Particle Swarm Optimization" 15 (15): 832-847, 2011

      9 S. Singh, "Optimized Passive Filter Design Using Modified Particle Swarm Optimization Algorithm for a 12-Pulse Converter-Fed LCI-Synchronous Motor Drive" 50 (50): 2681-2689, 2014

      10 N. Flourentzou, "Optimized Modulation for AC-DC Harmonic Immunity in VSC HVDC Transmission" 25 (25): 1713-1720, 2010

      11 Rao S. S, "Optimization : theory and application" Willey Eastern Limited 1978

      12 N. Nayak, "Optimal design of VSC based HVDC system using Particle swarm otimization technique" 1-5, 2012

      13 M. Peterson, "Multipulse controlled acdc converters for harmonic mitigation and reactive power management" 2 (2): 443-455, 2009

      14 K. Ogata, "Modern control engineering" Pearson Education 568-572, 2010

      15 D. Rivas, "Improving passive filter compensation performance with active techniques" 50 (50): 161-170, 2003

      16 "IEEE Recommended Practices and Requirement for Harmonics Control in Elect power System"

      17 B. Singh, "Hybrid filters for power quality improvement" 152 (152): 365-378, 2005

      18 J. Arrillaga, "Flexib le Power Transmission,The HVDC Option" John Wiley & Sons Ltd 2007

      19 D. M. Mohan, "Analysis and design of three-level, 24-pulse double bridge Voltage Source Converter based HVDC system for active and reactive power control" 1-7, 2010

      20 B. N. Singh, "An Improved Control Algorithm for Active Filters" 22 (22): 1009-1020, 2007

      21 Y. H. Liu, "Addition of four-quadrant power controllability to multi-level VSC HVDC transmission" 1 (1): 872-878, 2007

      22 Y. H. Liu, "A new highpulse voltage-sourced converter for HVDC transmission" 18 (18): 1388-1393, 2003

      23 Changhe Li, "A Self-Learning Particle Swarm Optimizer for Global Optimization Problems" 42 (42): 627-646, 2012

      24 Aiguo Xu, "A Multipulse-Structure-Based Bidirectional PWM Converter for High-Power Applications" 24 (24): 1233-1242, 2009

      25 Ronnie F. Chu, "A Direct Method for Identifying the Optimal Power Factor Correction in Nonsinusoidal Systems" PAS-104 (PAS-104): 959-964, 1985

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      학술지등록 한글명 : Journal of Electrical Engineering & Technology(JEET)
      외국어명 : Journal of Electrical Engineering & Technology
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.45 0.21 0.39
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.37 0.34 0.372 0.04
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