• Title/Summary/Keyword: Static VAR Compensator

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Variable-Speed Prime Mover Driving Three-Phase Self-Excited Induction Generator with Static VAR Compensator Voltage Regulation-Part H : Simulation and Experimental Results-

  • Ahmed, Tarek;Nagai, Schinichro;Soshin, Koji;Hiraki, Eiji;Nakaoka, Mutsuo
    • KIEE International Transaction on Electrical Machinery and Energy Conversion Systems
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    • v.3B no.1
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    • pp.10-15
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    • 2003
  • This paper presents the digital computer performance evaluations of the three-phase self-excited induction generator (SEIG) driven by the variable speed prime mover such as the wind turbine using the nodal admittance approach steady-state frequency domain analysis with the experimental results. The three-phase SEIG setup is implemented for small-scale rural renewable energy utilizations. The experimental performance results give a good agreement with those ones obtained from the digital computer simulation. Furthermore, a feedback closed-loop voltage regulation of the three-phase SEIG as a power conditioner which is driven by a variable speed prime mover employing the static VAR compensator (SVC) circuit composed of the thyristor phase controlled reactor (TCR) and the thyristor switched capacitor(TSC) is designed and considered herein for the wind-turbine driven the power conditioner. To validate the effectiveness of the SVC-based voltage regulator of the terminal voltage of the three-phase SEIG, an inductive load parameter disturbances in stand-alone are applied and characterized in this paper. In the stand-alone power utilization system, the terminal voltage response and thyristor triggering angle response of the TCR are plotted graphically. The simulation and the experimental results prove the effectiveness and validity of the proposed SVC which is controlled by the Pl controller in terms of fast response and high performances of the three-phase SEIG driven directly by the rural renewable energy utilization like a variable-speed prime mover.

Variable-Speed Prime Mover Driving Three-Phase Self-Excited Induction Generator with Static VAR Compensator Voltage Regulation -Part I : Theoretical Performance Analysis-

  • Ahmed, Tarek;Nagai, Schinichro;Soshin, Koji;Hiraki, Eiji;Nakaoka, Mutsuo
    • KIEE International Transaction on Electrical Machinery and Energy Conversion Systems
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    • v.3B no.1
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    • pp.1-9
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    • 2003
  • This paper deals with the nodal admittance approach steady-state frequency domain analysis of the three-phase self-excited induction generator (SEIG) driven by the variable speed prime mover as the wind turbine. The steady-state performance analysis of this power conditioner designed for the renewable energy is based on the principle of equating the input mechanical power of the three-phase SEIG to the output mechanical power of the variable speed prime mover mentioned above. Us-ing the approximate frequency domain based equivalent circuit of the three-phase SEIG. The main features of the present algorithm of the steady-state performance analysis of the three-phase SEIG treated here are that the variable speed prime mover characteristics are included in the approximate equivalent circuit of the three-phase SEIG under the condition of the speed changes of the prime mover without complex computations processes. Furthermore, a feedback closed-loop voltage regulation of the three-phase SEIG as a power conditioner which is driven by variable speed prime movers such as the wind turbine(WT) employing the static VAR compensator(SVC) circuit composed of the thyristor phase controlled reactor(TCR) and the thyristor switched capacitor(TSC) controlled by the PI controller is designed and considered for wind-turbine driving power conditioner.

A Study on the Effect of Controllers in Small Signal Stability of Power Systems (전력계통의 미소신호안정도에 미치는 제어기의 영향에 관한 연구)

  • 권세혁;김덕영
    • Journal of Energy Engineering
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    • v.5 no.1
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    • pp.72-79
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    • 1996
  • The effect of controllers-Exciter, Power System Stabilizer, and Static Var Compensator-in one machine infinite bus system is investigated in this paper. The structure of generator state matrix with controllers is represented, while the Static Var Compensator is installed in generator terminal bus. Eigen-value analysis is performed and the effects of controllers to the dominant eigenvalue in one machine infinite bus system are represented by first order eigenvalue sensitivity coefficients while the operating conditions of the system are varied. Optimization of controller parameters using first order eigenvalue sensitivity coefficients is performed by the Simplex Method. It is proved that exciter control is the most efficient method to improve stability of the system and the effect of Static Var Compensator is small, in the case of one machine infinite bus system.

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Control System Design for Self-Commutated Static Var Compensator (전압원인버터방식 송전용 무효전력보상기의 제어시스템 설계)

  • 한병문
    • Proceedings of the KIPE Conference
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    • 1996.06a
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    • pp.89-92
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    • 1996
  • This paper describes a detailed simulation model of the static condenser (STATCON) to analyze the dynamic interaction with the ac transmission line. The static condenser was represented by a 12-pulse voltage-source inverter sharing an energy storage dc capacitor. The voltage-source inverter consists of two 6-pulse bridges modeled with ideal gate-turn-off switches. The control system for the static condenser was designed through a mathematical model deduced from the equivalent circuit. Simulation results show that the conceived model is very effective to analyze the dynamic interaction between the static condenser and the ac transmission system.

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Reducing the Harmonics of Static Var Compensator Using Multi-Step Inverter (멀티-스텝 인버터를 이용한 무효전력 보상장치의 고조파 저감)

  • Park, Hyun-Chul;Kim, Yeong-Min;Hwang, Jong-Sun;Kim, Jong-Man
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2001.09a
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    • pp.19-22
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    • 2001
  • For stabilization and improving power factor in the power lines, various Static Var Compensators(SVC) have been considered to be installed and partly applicated already. With all these merits of the SVC, it stil has demerits, principally evoking harmonic problems. So far, many harmonic reduction type inverters have been used in various parts. In this paper, the reactive power is controlled by amplitude of the output voltage. This paper propose that the multiple voltage source inverter have controllable power factor made by load vary at receive-stage as lagging and leakage control. The theoretical analysis on this system was confirmed through the computer simulation and the experiments.

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Feasibility Analysis of STATCOM Application for Jeiu-Haenam HVDC System (제주-해남 HVDC 시스템에 STASTCOM 적용 타당성 분석)

  • Baek Seung-Taek;Choo Won-Gvo;Han Byung-Moon;Jang Gil-Soo
    • The Transactions of the Korean Institute of Electrical Engineers A
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    • v.54 no.8
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    • pp.401-409
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    • 2005
  • This paper describes a feasibility analysis result of STATCOM application for the Jeju-Haenam HVDC system. The Jeju-Haenam HVDC system is one of the typical HVDC system interconnected with the low short-circuit-ratio AC system, which is vulnerable to the commutation failure due to the AC voltage variation. STATCOM has been considered as an effective reactive-power compensator to increase short-circuit-ratio of the interconnected AC system. In this study, a simulation model of Jeju-Hacnam HVDC system with STATCOM was developed using PSCAD/EMTDC. The developed simulation model was utilized to analyze the dynamic performance analysis of Jeju-Haenam HVDC system with STATCOM. The analysis results show that STATCOM can improve the dynamic performance of Jeju-Haenam HVDC system, such as load-change recovery performance and fault recovery performance.

Compensation of Highly Varying Load Effects Using SVCs (SVC를 이용한 Highly varying 부하 영향 보상 방안 개발)

  • Jung, Moon-Goo;Cho, Yun-Sung;Jang, Gil-Soo
    • Proceedings of the KIEE Conference
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    • 2001.11b
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    • pp.83-87
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    • 2001
  • This work deals with the compensation of the impact of highly varying loads on the power system using a static var compensator(SVC). Highly varying loads is properly modelled via deterministic approach using PSCAD/EMTDC. Also, the procedure to determine a suitable capacity of the compensator is proposed. Finally, the new online index to quantify the harmonic distortion is introduced.

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Compensation of the Impact of Highly Varying Loads on Power Systems Using SVCs (SVC를 이용한 Highly varying 부하에 의한 영향 보상 방안)

  • Jeong, Moon-Goo;Jang, Gil-Soo;Lee, Byong-Jun;Son, Kwang-Myoung
    • Proceedings of the KIEE Conference
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    • 2001.07a
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    • pp.380-382
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    • 2001
  • This paper deals with the compensation of the impact of highly varying loads on the power system using a static var compensator (SVC). A procedure to determine a suitable capacity of the compensator is proposed, and it is implemented using PSCAD/EMTDC. The proposed method is applied to a test system to illustrate its capabilities.

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Installation of 80MVA UPFC(Unified Power Flow Controller) for improving voltage stability and reducing heavy load in KEPCO power systems (한전계통의 전압안정도 향상 및 과부하 해소를 위한 80MVA UPFC(Unified Power Flow Controller) 설치)

  • Oh, Kwan-Il;Chang, Byung-Hoon;Jeon, Young-Soo;Park, Sang-Tae;Choo, Jin-Boo
    • Proceedings of the KIEE Conference
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    • 2001.05a
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    • pp.262-265
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    • 2001
  • 최근 전력계통의 과부하, 전압안정도 등의 문제에 대한 해결책으로 FACTS (Flexible AC Transmission Systems)가 대두되고 있다. FACTS 설비에는 TCSC (Thyristor-Controlled Series Capacitor), SSSC (Static Synchronous Series Capacitor)와 같은 직렬 기기와 SVC(Static Var Compensator), STATCOM(STATic COMpensator) 와 같은 병렬기기 그리고, 본 논문에서 다루는 UPFC와 같은 직 병렬기기로 나누어진다. UPFC는 SSSC와 STATCOM을 결합한 형태로 유 무효전력을 동시에 보상할 수 있는 FACTS 기기이다. 본 논문에서는 한전 계통의 전압안정도 향상과 과부하 해소를 위해 강진S/S에 설치예정인 80MVA UPFC의 하드웨어 특성과 주변계통의 특성을 소개하고, UPFC와 한전 계통의 연계방안과 시험방안을 설명한다.

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Dynamic Model Study for the Analysis of the STATCOM Characteristics (STATCOM의 특성해석을 위한 동적모델 고찰)

  • Kim, S.H.;Won, D.J.;Han, H.G.;Lee, S.K.;Moon, S.I.
    • Proceedings of the KIEE Conference
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    • 1999.07c
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    • pp.1039-1041
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    • 1999
  • Recently Advanced Static Var Compensators(ASVC) or STATic Synchronous COMpesator(STATCOM) has been considered as a next generation reactive power controller. [2] STATCOM is a voltage source inverter(VSI) based static VAr compensator with only small capacitors on the do side. The main function of the STATCOM is to keep the bus voltage magnitude at the desired value. [1] This paper compares the PAM STATCOM with PWM STATCOM. The characteristics and the control method of each model is analyzed. And the simulation of STATCOMs based on the above two methods was presented.

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