• Journal of the Korean Society for Railway
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• v.15 no.4
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• pp.357-363
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• 2012

This paper presents a new operation method for the single phase PWM(Pulse Width Modulation) converter train. Recently, the trains adopting the PWM converter have become the majority in the electric locomotives since there are distinct advantages over the predecessors, which can be operated at near unity power factor. However, a slight modification of the control scheme makes this kind of vehicles run in the region of leading power factor. Although this feature seems to be of no significant use by itself, the leading phase operation can improve the voltage profile and the line loss of the feeding systems is decreased by compensating the reactive power loss along the line when it considered together with the feeding systems. This method is even more economical and efficient comparing with the installation of SVC that is mainly used for this purpose since the train can become a movable compensator. With the conditions and some essential formula for the leading phase operation, a new power factor control algorithm has been proposed to implement this scheme. The results of simulation through SIMULINK model show that the proposed method is suitable enough for practical use.

• The Transactions of the Korean Institute of Electrical Engineers
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• v.44 no.10
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• pp.1290-1294
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• 1995

In this paper, a new voltage collapse proximity index (VCPI) based on system apparent power loss sensitivity is proposed. The newly proposed index .lambda.$^{Sloss}$ reaches -.inf. at system voltage collapse point and can be represented by .root..lambda.$^{Ploss}$$^{2}$+.lambda.$^{Qloss}$$^{2}$ where .lambda.$^{Ploss}$ and .lambda.$^{Qloss}$ are the VCPI based on the system active and reactive power loss sensitivity respectively. These indices can be used for the system VAR investment. .DELTA.Q [VAR] is invested, step by step, by the priority of the VCPI index given for each bus. The indices use information from normal power flow equations and their Jacobians. Computation time for deriving .lambda.$^{Sloss}$ is almost same as that for power flow calculation. Two case studies prove the effectiveness of the .lambda.$^{Sloss}$ index and the VAR investment algorithm proposed.

• JOURNAL OF ELECTRICAL WORLD
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• s.277
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• pp.69-77
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• 2000

최근 전력설비 운용상의 여러 가지 과제에 대한 유망한 해결책으로서 파워일렉트로닉스 기기를 사용한 FACTS(Flexible AC Transmission System)가 주목을 받고 있다. 그 중에서도 자려식 변환기를 사용한 FACTS기기는 계통의 유효전력$\cdot$무효전력을 계통의 상태에 의존하지 않고 자유롭게 제어할 수 있어, 계통운용의 유연성을 비약적으로 확대할 수 있는 가능성이 있다. 미쓰비시전기는 전력기기간 계통에서의 자려식 변환기 응용의 파이어니어로서 1991년 간사이전력(주) 태산개폐소에 80Mvar SVG(전지형 무효전력발생장치)를 납품하였으며 또한 자원에너지청의 ''연계강화기술개발'' 보조사업으로 도쿄전력(주)을 비롯하여 전력회사 각사, 전원개발(주)와 (재)전력중앙연구소의 지도 하에 3단자 BTB(Back to Back) 실증시스템용으로 세계 최초의 6인치 GTO(Gate Turn-off Thyristor)를 사용한 53MVA의 자려식 변환기를 제작납품하여 수백MVA 클래스의 자려식변환기 제작기술을 확립하였다. 또한 최근에는 동사가 개발한 신소자 GCT(Gate Commutated Turn-off Thyristor)는 지금까지 대용량 자려식 변환기의 커다란 과제였던 운전손실을 반감할 수 있을 것으로 기대되고 있다. 한편 배전 분야에서는 전압변동, 고조파, 순간전압강하 등의 과제가 증가하고 있어, 미쓰비시전기는 이에 응할 수 있는 파워일렉트로닉스 기기로서 콤팩트 SVG(Static Var Generator), SSTS(Solid-state Transfer Switch), 액티브필너를 다수 납품하여 전력품질문제 해결에 공헌하고 있다.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.16 no.4
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• pp.2737-2743
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• 2015

The wind power plant must be able to produce reactive power at the POI bus of a wind farm connected to power system to keep or control the voltage of POI bus. But, the reactive power capability of wind turbines may not be sufficient to control the voltage of POI bus due to the reactive power losses in connection lines between wind farm and POI bus. The solution of this problem is to install an external STATCOM. The proposed cooperative control method of STATCOM and conventional reactive power compensators such as Switched-shunt and tap changing transformer can control the voltage of POI bus more efficiently. The simulation results are shown that the voltage drop of POI Bus of Test System with the arbitrary load change rate to initial loads is improved more than 60% and the voltage of load bus is maintained more than 95% of rated voltage.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.16 no.6
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• pp.4115-4120
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• 2015

To ensure the transient stability of power system connected to a wind farm, wind power plant must be able to supply reactive power at the point of the common coupling(PCC). The reactive power capability of each individual wind turbine may not sufficient to maintain stability. Also, there are large reactive power losses in connection cables between wind farm and PCC. The static synchronous compensator(STATCOM) is considered for transient stability enhancement, because it provides many advantages such as the fast response time and superior reactive power support capability. In this paper, the effectiveness of a STATCOM in enhancing transient stability of power system connected to a wind farm is presented. The results of dynamic simulations show that STATCOM installed at the PCC can enhance transient stability.

• Plant Journal
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• v.17 no.2
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• pp.48-53
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• 2021

In the case of a 900 MW combined cycle power plant, most of the load on the site is a rotating device and is operated at a low power factor, and the power factor decrease increases the reactive power, which causes the efficiency of the device to be consumed and unnecessary unnecessary power consumption. This study intends to present the results by installing and operating a reactive power compensation device that absorbs and removes reactive power, which is a solution to this problem, on a 6.9 kV on-board bus. As a result of application of this system, first, it was confirmed that the power factor of the rotating machine was improved to 0.22 and the load power in the house was reduced by 1.4%, and the thermal efficiency of the generator was increased by 0.1% and the power generation power by 810 kW. Next, it was confirmed that the cost of construction and operation can be reduced in the future due to economic feasibility, with a decrease of 200 million won/year in electricity loss compared to 1.5 billion won in investment, an increase of 1 billion won/year in sales, and a one-year capital recovery period.

• Electric Engineers Magazine
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• v.233 no.2
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• pp.51-58
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• 2002

지상 무효전력만을 보상할 수 있으므로 동기조상기 같은 융통성은 없으나 전기부하가 거의다 지상 부하이므로 이를 보상하기 위해 많이 사용되고 있다. 계통의 안정도에 크게 기여한다고 할 수는 없으나 정지기로서 손실이 최소이고 가격이 경제적이며 고장이 적어서 유지 보수가 편하다는 등의 장점을 가지고 있다.

• Proceedings of the KIEE Conference
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• 1979.08a
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• pp.136-137
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• 1979

• ETRI Journal
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• v.6 no.4
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• pp.31-36
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• 1984

This paper presents an efficient method for real power loss minimization and for improvements in voltage profiles. This method is accomplished by optimal control of reactive power in the system. The problem is formulated as an optimization problem, suitable for solution by linear programming technique. After establishing the objective function for minimizing the system losses with the help of linearised sensitivity relationships of control variables, i. e., the transformer tap position, generator terminal voltages and switchable reactive power sources. The linear programming technique is used to determine the optimal adjustments to the above variables, simultaneously satisfying the constraints. The proposed algorithm has been tested on a sample system and the result is presented and discussed.

• Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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• v.18 no.5
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• pp.83-89
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• 2004

The importance of the Load Power Factor(LPF) management is newly noticed from the voltage management and operation of the power system due to the rapidly increasing reactive power consumed. Therefore, this paper proposes the regional, seasonal and hourly Representative Model of Load Power Factor(RMLPF) considering load characteristics of all 154/22.9[kV] substations. The RMLPF is used to present a precision improvement of power system analysis and security. Computation of representative model of load utilizes the average flow method based on moving average method. The Energy Management System(EMS) data are used as the source to assess the load power factor.