• Title/Summary/Keyword: a regenerative power

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Simulation study of a regenerative inverter for absorption of regenerative energy in a DC traction substation (도시철도직류변전소의 회생전력 흡수를 위한 회생인버터 시뮬레이션)

  • Bae C. H.;Han M. S.;Kim Y. G.;Kwon S. Y.;Park H. J.
    • Proceedings of the KSR Conference
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    • 2005.11a
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    • pp.705-711
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    • 2005
  • In DC traction substation with 12-pulse diode rectifiers, the DC line voltage tends to rise above noload voltage because it can't absorb the regenerative power caused by electric brakes of train. To solve this problem, an IGBT regenerative inverter should be installed and recycles the surplus regenerative power by delivering it. to the supply grid. In this paper, the DC traction substation equipped with a IGBT regenerative inverter is studied using computer simulation. Matlab/simulink is used to simulate the operation of regenerative inverter which injects the regenerative power into the supply grid and stabilizes the DC line voltage. It is confirmed that the high quality regenerative power is delivered to the supply grid thorough computer simulation.

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Simulation study of a grid-connected inverter for absorption of regenerative energy in a DC traction substation (도시철도 직류변전소의 회생전력흡수를 위한 계통연계형 인버터 시뮬레이션)

  • Bae, C.H.;Han, M.S.;Jung, H.S.;Kim, Y.K.;Park, H.J.
    • Proceedings of the KIEE Conference
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    • 2005.10c
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    • pp.279-281
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    • 2005
  • In DC traction substation with 12-pulse diode rectifiers, the DC line voltage tends to rise above noload voltage because it can't absorb the regenerative power caused by electric brakes of train. To solve this problem, an IGBT regenerative inverter should be installed and thus recycles the surplus regenerative power by delivering it to the supply grid. In this paper, the DC traction substation equipped with a IGBT regenerative inverter is studied using computer simulation. Matlab/simulink is used to simulate the operation of regenerative inverter which injects the regenerative power into the supply grid and stabilizes the DC line voltage. It is confirmed that the high quality regenerative power is delivered to the supply grid thorough computer simulation.

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A Study on a New Power Flow Method for Analysis of AC Electric Railway System and Improvement of Voltage Drop Using a STATCOM (교류 전기철도 시스템의 해석에 적합한 조류계산 기법 및 STATCOM을 적용한 전압 강하 개선 연구)

  • Baek, Jung-Myoung;Lee, Byung-Ha
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.56 no.4
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    • pp.669-676
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    • 2007
  • This paper presents a new power flow method to analyze the AC electric railway system effectively in both cases of traction and regenerative braking of the trains. The algorithm to easily solve the power flow of the AC electric railway system with the trains of regenerative braking from the system without a train of regenerative braking is derived. Using this new power flow method, the voltage characteristics of a typical AC electric railway system is easily analyzed in both cases of traction and regenerative braking of the trains. We show that the presented method can be applied effectively in order to analyze the AT-fed AC electric railway system in both cases of traction and regenerative braking of the trains. A STATCOM(Static Synchronous Compensator) is applied to the system in order to improve the voltage drop problem and this case is also analyzed to show the effect of STATCOM.

Regenerative energy analysis in DC 1500V electric traction substations (DC 1500V용 전철변전소의 회생전력량 분석)

  • Bae, Chang-Han;Jang, Dong-Uk;Kim, Young-Gi;Kim, Sung-Tae;Kim, Byung-Hyun
    • Proceedings of the KSR Conference
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    • 2007.05a
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    • pp.836-845
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    • 2007
  • In DC 1500V electric traction substations, diode rectifiers are commonly used to supply stable DC power with electric train sets. However, it operates in the first quadrant of the voltage-current plane and thus needs regenerative inverters which transfer the surplus regenerative power caused by regenerative braking of electric train sets into the grid. In order to select the proper capacity and installation position of regenerative inverter, it needs to investigate the consumed and regenerative energy of the electric traction substations in advance. This paper presents an analysis of regenerative energy in two substations operating in Seoul line 2 and Kwangju line 1. DC line voltage and feeder currents are measured for a day to calculate consumed and regenerative power for four feeders. We calculated an amount of regenerative energy consumed in other feeders and estimated the cost reduction in energy consumption due to the reuse of regenerative energy.

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Determining the Capacity and Installation Positions of Regenerative Inverters at DC 1500V Electric Railway Substations (직류 1500V 전기철도용 변전소의 회생인버터 용량 및 설치위치 선정 방법)

  • Bae, Chang-Han;Han, Moon-Seub;Kim, Yong-Ki;Kwon, Sam-Young;Park, Hyun-June
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.55 no.9
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    • pp.478-484
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    • 2006
  • The paper presents methods of determining the capacity and installation positions of regenerative inverters installed in DC 1500V electric railway system. We suggested a method that approximates using parameters related to substations where regenerative inverters are installed, railway lines and operating motor cars, and another that calculates using regenerative power obtained from Train performance Simulation (TPS) and Power Flow Simulation (PFS). We carried out TPS and PFS for Seoul Subway Line $5{\sim}8$, calculating regenerative power and determining substations where regenerative inverters would be installed and the optimal capacity and number of inverters to be installed.

Power Regenerating Drive of a Induction Motor by Field Acceleration Method (자계가속법에 의한 유도 전동기의 전력회생 구동)

  • Hong, Soon-Ill;Hong, Jeng-Pyo;Jung, Seoung-Hwan
    • Journal of Advanced Marine Engineering and Technology
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    • v.31 no.4
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    • pp.417-424
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    • 2007
  • This paper presents a solution that an analytical model for an induction motor and the formula of regenerative power and instantaneous torque are derived. based on the spiral vector. The torque is controlled linearly through variations of the slip angular velocity, based on the field acceleration method (FAM). And also PWM inverter fed induction motor drives is schemed to be easily a regenerative drive. The voltage source inverter fed induction motor drives that regenerative power occurs with back current type is presented, to easily controlled the feedback power and to proper the adaption of energy shaving drives. The experimental tests verify the performance of the FAM, proving that food behavior of the drive is achieved in the transient and steady state operating condition, and are discussed to save the power that regenerative power is measured at the operating acceleration or deceleration of servo system.

Development of Regenerative Converter Unit (회생전력 변환장치의 개발)

  • Hwang, Hee-hun;Ryu, Ji-su;Lee, Sang-ho
    • Proceedings of the KIPE Conference
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    • 2011.07a
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    • pp.283-284
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    • 2011
  • Generally, it is important to use the regenerative energy efficiently for decrease of inverter's consuming energy. From various industry sector (railroad, steel, crane etc), re-uses the regenerative energy which uses the regenerative converter unit, and gets a many profit from whole consuming energy. In this paper, we introduce development of the regenerative converter unit that supply the regenerative energy to power source and main drive inverter, and introduce the instance which is applied in the elevator.

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Maximum Power Recovery of Regenerative Braking in Electric Vehicles Based on Switched Reluctance Drive

  • Namazi, Mohammad Masoud;Saghaiannejad, Seyed Morteza;Rashidi, Amir;Ahn, Jin-Woo
    • Journal of Electrical Engineering and Technology
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    • v.13 no.2
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    • pp.800-811
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    • 2018
  • This paper presents a regenerative braking control scheme for Switched Reluctance Machine (SRM) drive in Electric Vehicles (EVs). The main purpose is to maximize the recovered energy during battery charging by taking into account the nonlinear physical characteristics of the Switched Reluctance Machine. The proposed regenerative braking method employs the back-EMF in the generation process as a complicated position-dependent voltage source. The proposed maximum power recovery (MPR) operation of the regenerative braking is first based on the maximization of the extracted power from the machine and then the maximization of the power transferred to the battery. The maximum power extraction (MPE) from SRM is based on maximizing the energy conversion ratio by the calculation of the optimum PWM switching duty cycle, turn-on, and turn-off angles. By using the impedance matching theorem that allows the maximum power transfer (MPT) of the MPE, the proposed MPR is achieved. The parametric averaged value modeling of the machine phase currents in the chopping control mode is used for MPR realization. By following this model, a nonlinear equivalent input resistance is derived for the battery internal resistance matching. The effectiveness of the proposed regenerative braking method is demonstrated through simulation results and experimental implementation.

Regenerative Energy Characteristics of Battery and Supercapacitor in a PEMFC Hybrid System

  • Kim, Byeong Heon;Wei, Qingsheng;Oh, Byeong Soo
    • Journal of Power System Engineering
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    • v.21 no.4
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    • pp.5-17
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    • 2017
  • This study focuses on the application of the PEM Fuel Cell(PEMFC) hybrid system, which includes a regenerative braking system with supercapacitor(SC) and battery. The purpose of this study is to evaluate the characteristics of regenerative energy and to propose solutions to increase regenerative energy via vehicle simulation. To achieve this target, we set the rated motor speed to 3,000/2,500/2,000 rpm. Because the flywheel is directly connected to the motor, the generator activates regenerative braking by using the rotational momentum of the flywheel when the flywheel reaches the set speed after the motor stops. We could then measure the characteristics of regenerative braking of voltage, current, power, energy change, etc. Meanwhile, we calculate the storage efficiency of the SC or the battery. Our results show that the SC stores 18% of the regenerative energy, while battery stores 15% of the energy. Since the regenerative energy decreases with the decrease of the motor rotating speed that 5,027 J and 2,915 J are restored at 3,000 and 2,500 rpm, respectively. The experimental results also prove that regenerative braking energy is able to be obtained if and only if the speed of flywheel is over 2,500 PRM, and the efficiency of the system can be further improved.

Analysis of Utilizing Regenerative Energy in Railway System through a DC Power Supply Simulation (DC 급전시뮬레이션을 통한 도시철도 회생에너지 활용 분석)

  • Shin, Seungkwon;Jung, Hosung;Kim, Hyungchul;Park, Jongyoung
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.63 no.10
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    • pp.1479-1484
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    • 2014
  • This paper deals with regenerative energy in railway system which one of the largest customer in terms of load capability. Unlike the other loads of power system, loads of railway systems change in time and space. It has a characteristic amount of generating regenerative energy by frequent starting and braking in railway system. Therefore, it is expected higher utilization in railway system than the other systems. The purpose of DC power supply simulation is analyzing backed energy, regenerative energy by each railway vehicle and substation. In this paper, regenerative energy utilization are analyzed using DC power supply simulation and it is performed changing major influence on the design such as the number of installing absorber, internal resistance value, no-load voltage value at substation or operating parameters at regenerative energy utilization. After simulating, results are compared and analyzed.