• 제목/요약/키워드: Flywheel energy storage system (FESS)

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초전도자기베어링을 이용한 플라이휠 에너지 저장장치의 진동특성에 관한 연구 (A Study on Vibration Characteristics of Flywheel Energy Storage System Using Superconducting Magnetic Bearings)

  • 김종수;이수훈
    • 한국정밀공학회지
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    • 제15권2호
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    • pp.170-177
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    • 1998
  • The purpose of superconducting magnetic bearing flywheel energy storage system(SMB-FESS) is to store unused nighttime electricity as kinetic energy and convert it to electricity during daytime. The SMB-FESS is proposed as an efficient energy storage system because there is no mechanical problems, such as friction and wear The flywheel over SMB is rotated at a high speed, 50,000rpm. The major source of energy loss in the SMB-FESS is vibration of flywheel. Therefore, the vibration characteristics of SMB-FESS should be identified. In this study, the axial/radial stiffness and damping coefficient of SMB are measured by a vibration test. Natural frequencies and natural modes of flywheel and magnet are analyzed by a finite element method. The modal analysis of system is performed using the modal parameters of each component and the measured stiffness/damping coefficient. So, natural at frequencies and mode shapes of the joined system can be obtained. According to critical speed analysis, the system has two rigid conical modes in the low speed range. Nevertheless, the system has not been affected by the critical speed in the main operating range.

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Experimental Evaluation on Power Loss of Coreless Double-side Permanent Magnet Synchronous Motor/Generator Applied to Flywheel Energy Storage System

  • Kim, Jeong-Man;Choi, Jang-Young;Lee, Sung-Ho
    • Journal of Electrical Engineering and Technology
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    • 제12권1호
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    • pp.256-261
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    • 2017
  • This paper deals with the experimental evaluation on power loss of a double-side permanent magnet synchronous motor/generator (DPMSM/G) applied to a flywheel energy storage system (FESS). Power loss is one of the most important problems in the FESS, which supplies the electrical energy from the mechanical rotation energy, because the power loss decreases the efficiency of energy storage and conversion of capability FESS. In this paper, the power losses of coreless DPMSM/G are separated by the mechanical and rotor eddy current losses in each operating mode. Moreover, the rotor eddy current loss is calculated by the 3-D finite element analysis (FEA) method. The analysis result is validated by separating the power loss as electromagnetic loss and mechanical loss by a spin up/down test.

운동 에너지를 고려한 Flywheel Energy Storage System 설계와 진동 저감을 위한 3상 유도기의 슬롯수 산정에 관한 연구 (A Study on the Determination of Slot's Number of Rotor to Reduce Noise and Vibration and Design the 3-Phase Induction Motor Considering Kinetic Energy in Flywheel Energy Storage System)

  • 류재호;김희민;이치우;박관수;정동욱
    • 한국자기학회지
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    • 제27권1호
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    • pp.1-8
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    • 2017
  • 플라이휠 에너지 저장 장치(Flywheel Energy Storage System, FESS)은 회전 운동 에너지를 저장하는 플라이휠 부분과 저장된 회전 에너지를 전기 에너지로 변환시키는 전동기/발전기 부분으로 구성된다. 일반적으로 플라이휠의 회전축은 전동기 및 발전기의 회전축과 동축 일체형으로 연결되고, 이때 전동기 및 발전기의 전자기 토크특성에 따른 동특성 변화는 전체 플라이휠 에너지 저장 장치의 충방전 특성과 기계적인 출력에 영향을 미친다. 본 논문에서는 5[kWh] 급 플라이휠 에너지 저장 장치 용 3상 유도전동기의 설계방법과 회전자 슬롯 수 변화에 따른 토크리플 특성과 고조파 영향을 중점적으로 분석하였다. 먼저, 플라이휠 에너지 저장 장치의 용량과 관성 모멘트에 의한 회전운동에너지의 관계식으로부터 플라이휠 크기와 전동기의 회전자 크기를 산정하는 방법을 제안하였다. 또한 플라이휠 에너지 저장 장치의 회전축의 고속구동 조건을 반영하여, 고속운전 영역에서의 전동기 토크리플 저감을 위한 유도전동기 회전자 슬롯수를 선정하였다. 이로부터 본 논문에서는 전동기 회전축과 동축으로 구성된 플라이휠의 소음 진동을 줄이고 고효율 충방전 특성을 구현하고자 한다.

Application of FESS Controller for Load Frequency Control

  • Lee, Jeong-Phil;Kim, Han-Guen
    • Journal of international Conference on Electrical Machines and Systems
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    • 제2권3호
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    • pp.361-366
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    • 2013
  • This paper presents the effect on application of the flywheel energy storage system (FESS) for load frequency control (LFC) of an interconnected 2 area power system. To do this, the control characteristics with the FESS were compared with that of the conventional governor controller. The controller for the FESS control and the governor control used a PID type controller. Both the FESS PID controller and the governor PID controller using genetic algorithm (GA) were designed to optimize the PID parameters. The frequency and generation output characteristics with the only FESS controller and with the only conventional governor controller were compared. To verify robust performance of the FESS controller, the computer simulations were performed under various disturbances. The simulation results showed that the FESS controller provided better dynamic responses in comparison with the conventional governor controller.

10 kWh급 플라이휠 에너지 저장 시스템 설계 및 제작 (Design and Construction of 10 kWh Class Flywheel Energy Storage System)

  • 정세용;한상철;한영희;박병준;배용채;이욱륜
    • Progress in Superconductivity
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    • 제13권1호
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    • pp.40-46
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    • 2011
  • A superconductor flywheel energy storage system (SFES) is an electro-mechanical battery which transforms electrical energy into mechanical energy for storage, and vice versa. A 10 kWh class flywheel energy storage system (FESS) has been developed to evaluate the feasibility of a 35 kWh class SFES with a flywheel $I_p/I_t$ ratio larger than 1. The 10 kWh class FESS is composed of a main frame, a composite flywheel, active magnetic dampers (AMDs), a permanent magnet bearing, and a motor/generator. The flywheel of the FESS rotates at a very high speed to store energy, while being levitated by a permanent magnetic bearing and a pair of thrust AMDs. The 10 kWh class flywheel is mainly composed of a composite rotor assembly, where most of the energy is stored, two radial and two thrust AMD rotors, which dissipate vibration at critical speeds, a permanent magnet rotor, which supports most of the flywheel weight, a motor rotor, which spins the flywheel, and a central hollow shaft, where the parts are assembled and aligned to. The stators of each of the main components are assembled on to housings, which are assembled and aligned to the main frame. Many factors have been considered while designing each part of the flywheel, stator and frame. In this study, a 10 kWh class flywheel energy storage system has been designed and constructed for test operation.

도시철도차량 주행풍을 이용한 터빈형 플라이휠 에너지 저장시스템 개발에 관한 연구 (Development of a Turbine Based Flywheel Energy Storage System Using Traveling Wind Power of an Urban Train)

  • 서용범;임재문;신광복
    • 한국생산제조학회지
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    • 제23권5호
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    • pp.443-449
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    • 2014
  • This study aims to develop a Flywheel Energy Storage System (FESS) that uses wind power produced when an urban train is in motion, by utilizing a mounted turbine. This system was designed to generate and store electric power from wind power of a travelling urban train. The flywheel was designed to continue rotation using a one-way clutch bearing installed in the turbine shaft pulley, even in cases where the urban train decelerates or stops. This FESS can generate an additional 44% of electric power in comparison to a system not equipped with a flywheel. The generated power and operational features of the FESS were evaluated and verified through a wind tunnel test. The results show that the electric power stored in the FESS could supply auxiliary power for urban train components or service equipment, such as charging mobiles, Wi-Fi modules, and electric lights.

Frequency Control of in Hybrid Wind Power System using Flywheel Energy Storage System

  • Lee, Jeong-Phil;Kim, Han-Guen
    • Journal of international Conference on Electrical Machines and Systems
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    • 제3권2호
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    • pp.229-234
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    • 2014
  • In this paper, a design problem of the flywheel energy storage system controller using genetic algorithm (GA) is investigated for a frequency control of the wind diesel hybrid power generation system in an isolated power system. In order to select parameters of the FESS controller, two performance indexes are used. We evaluated a frequency control effect for the wind diesel hybrid power system according to change of the weighted values of a performance index. To verify performance of the FESS controller according to the weighted value of the performance index, the frequency domain analysis using a singular value bode diagram and the dynamic simulations for various weighted values of performance index were performed. To verify control performance of the designed FESS controller, the eigenvalue analysis and the dynamic simulations were performed. The control characteristics with the two designed FESS controller were compared with that of the conventional pitch controller. The simulation results showed that the FESS controller provided better dynamic responses in comparison with the conventional controller.

풍력-디젤-플라이휘일 하이브리드 발전시스템 모델링에 관한 연구 (Modeling of Hybrid Generation System with Wind Turbine, Diesel Generator and Flywheel Energy Storage System)

  • 김재언
    • 한국산학기술학회논문지
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    • 제14권6호
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    • pp.2979-2984
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    • 2013
  • 본 논문은 도서지역에서 운용되고 있는 풍력-디젤 하이브리드 발전시스템의 풍속변화 등으로 인한 주파수변동 문제를 해결할 수 있는 플라이휘일 저장장치의 모델링 및 제어기 설계 방법을 제안하였다. 플라이휘일 저장장치는 효율측면에서 유리한 영구자석 동기기형 플라이휘일로 선정하여 모델링하였고, 주파수보상 제어기는 AC/DC/AC 양방향컨버터로 구성하되 동기기측 컨버터는 연계계통의 주파수변동에 대하여 충방전운전을 하도록 하고, 계통측 컨버터는 직류버스전압 일정제어를 통하여 출력을 하도록 설계하였다. 제안된 모델링 및 제어기 설계방법을 풍력-디젤 하이브리드 독립운전계통에 적용한 결과 풍속변화에 따른 주파수변동을 적정범위내로 유지할 수 있었다.

Shore power to ships and offshore plants with flywheel energy storage system

  • Jeong, Hyun-Woo;Ha, Yun-Su;Kim, Yoon-Sik;Kim, Chul-Ho;Yoon, Kyoung-Kuk;Seo, Dong-Hoan
    • Journal of Advanced Marine Engineering and Technology
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    • 제37권7호
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    • pp.771-777
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    • 2013
  • This paper describes a study of major shipyard's electrical network and simulation of applying flywheel energy storage system on the electrical network at shipyard for shore-power to ships and offshore plants in order to save fuel consumption on engines, mitigate voltage sags, and prevent blackout due to pulsed load and fault, resulting in reduction of air emission into atmosphere. The proposed energy recycling method with FESS (Flywheel Energy Storage System) can be applied for electrical power system design of heavy cranes at shipyards.

5kWh Flywheel 에너지저장장치 시스템의 동특성 향상 설계 (Design of 5kWh Flywheel Energy Storage System to Improve Dynamics)

  • 박철훈;최상규;함상용;이성휘;윤동원;한영희
    • 한국정밀공학회지
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    • 제25권10호
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    • pp.99-106
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    • 2008
  • 5kWh FESS(Flywheel Energy Storage System) using AMB(Active Magnetic Bearing) has been under development and 1st trial system has been finished and run the operating test. Unfortunately, the test result was not satisfactory because FESS could increase the rotational speed up to 9,000 rpm only although the target rotational speed is 18,000rpm. It's because 1st bending mode frequency of flywheel shaft was too low and imbalance response was too big. To achieve the target speed, 1st bending mode and imbalance response must be improved and the whole FESS needed to be designed again. This paper presents the newly designed FESS and what has been changed from the 1st trial FESS to improve 1st bending mode and imbalance response. The experimental results to see how much 1st bending mode frequency was improved are presented, too.