• Title/Summary/Keyword: Fuel Cell Power Generation

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Constitution and Operation of the 25 kW Molten Carbonate Fuel Cell Power Generation System for Power Utility (25 kW급 전력사업용 MCFC 발전시스템 구성 및 운전평가)

  • Lim, Hee-Chun;Ahn, Kyo-Sang
    • Proceedings of the KIEE Conference
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    • 2000.07b
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    • pp.687-689
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    • 2000
  • Molten Carbonate Fuel Cell (MCFC) with high electrical efficiency and low environmental effect has been developed for the commercial application of power generation fields. Recently we have built a 25 kW molten carbonate fuel cell power generation system and tested it. The MCFC system is composed of diverse peripheral units such as reformer, pre-heater, water purifier. electrical loader, gas supplier, and recycling systems. The stack itself was made of 40 cells of $6.000 cm^2$ area each. The stack showed an output of 28.6 kW power and a reliable performance at atmospheric operation. while in pressurized operation the stack showed an output 25.6 kW lower than the atmospheric operation. The reason of lower performance of pressurized operation was caused from a gas cross over shown in few cells in the stack.

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A Study on the Fuel Cell Equivalent Circuit Modeling (연료전지 수치해석을 이용한 등가회로 모델링 연구)

  • OH, HWANYEONG;CHOI, YOON YOUNG;SOHN, YOUNG-JUN
    • Journal of Hydrogen and New Energy
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    • v.33 no.3
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    • pp.226-231
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    • 2022
  • Power converter are usually equipped for fuel cell power generation system to connect alternating current (AC) electric power grid. When converting direct current (DC) of fuel cell power source into AC, the power converter has a frequency ripple, which affects the fuel cell and the grid. Therefore, an equivalent circuit having dynamic characteristics of fuel cell power, for example, impedance, is useful for designing an inverter circuit. In this study, the current, voltage and impedance characteristics were calculated through fuel cell modeling and validated by comparing them with experiments. The equivalent circuit element values according to the current density were formulated into equations so that it could be applied to the circuit design. It is expected that the process of the equivalent circuit modeling will be applied to the actual inverter circuit design and simulated fuel cell power sources.

Study on Electrochemical Hydrogen Separation of Hydrogen and Nitrogen Mixture Gas (수소와 질소 혼합 가스의 전기화학적 수소 분리에 관한 연구)

  • DONGYUN KIM;TEAHEON KIM;DONGKEUN LEE;YOUNGSANG KIM;KOOKYOUNG AHN;YONGGYUN BAE;JINYOUNG PARK;YOUNG KIM
    • Journal of Hydrogen and New Energy
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    • v.34 no.2
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    • pp.149-154
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    • 2023
  • In the Fourth Industrial Revolution, hydrogen energy is in the spotlight. There is a difficulty in commercialization due to the lack of hydrogen infrastructure. Therefore, a lot of hydrogen should be imported and a method using ammonia is the most useful. In this study, using the mixed gas of hydrogen and nitrogen generated when ammonia is decomposed, the hydrogen separation performance is to be tested. Hydrogen was separated using an electrochemical hydrogen compressor based on a fuel cell and the experiment was conducted by changing the ratio of hydrogen and nitrogen. In addition, the performance was also compared by the difference both the pressure and the membrane.

Application of SFCL on Bus Tie for Parallel Operation of Power Main Transformers in a Fuel Cell Power Systems

  • Chai, Hui-Seok;Kang, Byoung-Wook;Kim, Jin-Seok;Kim, Jae-Chul
    • Journal of Electrical Engineering and Technology
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    • v.10 no.6
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    • pp.2256-2261
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    • 2015
  • In the power plant using high temperature fuel cells such as Molten Carbonate Fuel Cell(MCFC), and Solid Oxide Fuel Cell(SOFC), the generated electric power per area of power generation facilities is much higher than any other renewable energy sources. - High temperature fuel cell systems are capable of operating at MW rated power output. - It also has a feature that is short for length of the line for connecting the interior of the generation facilities. In normal condition, these points are advantages for voltage drops or power losses. However, in abnormal condition such as fault occurrence in electrical system, the fault currents are increased, because of the small impedance of the short length of power cable. Commonly, to minimize the thermal-mechanical stresses on the stack and increase the systems reliability, we divided the power plant configuration to several banks for parallel operation. However, when a fault occurs in the parallel operation system of power main transformer, the fault currents might exceed the interruption capacity of protective devices. In fact, although the internal voltage level of the fuel cell power plant is the voltage level of distribution systems, we should install the circuit breakers for transmission systems due to fault current. To resolve these problems, the SFCL has been studied as one of the noticeable devices. Therefore, we analyzed the effect of application of the SFCL on bus tie in a fuel cell power plants system using PSCAD/EMTDC.

Grid Independent Photovoltaic Fuel-Cell Hybrid System: Design and Control Strategy

  • Islam Saiful;Belmans Ronnie
    • KIEE International Transaction on Electrical Machinery and Energy Conversion Systems
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    • v.5B no.4
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    • pp.399-404
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    • 2005
  • In this paper, a hybrid photovoltaic fuel-cell generation system employing an electrolyzer for hydrogen generation and battery for storage purpose is designed and simulated. The system is applicable for remote areas or isolated DC loads. Control strategy has been considered to achieve permanent power supply to the load via the photovoltaic/battery or the fuel cell based on the power available from the sun. MATLAB and SIMULINK have been used for the simulation work. A sensitivity analysis is conducted for various load level based on availability of solar radiation.

Design of a Heat Release System for Fuel Cell Vehicles (연료전지 자동차 열방출 시스템의 설계)

  • Kim, Min-Soo;Kim, Sung-Chul;Park, Min-Su;Jung, Seung-Hun;Yoon, Seok-Ho
    • New & Renewable Energy
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    • v.1 no.4 s.4
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    • pp.49-54
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    • 2005
  • There is close relation between the heat generation in the fuel cell stack and the fuel performance. In PEM fuel cell vehicles, the stack coolant temperature is about $65^{\circ}C$, which is far lower than that for general automobile engine. Therefore, it is hard to release heat generated in the stack by using a radiator of limited size because of the reduced temperature difference between the coolant and the ambient air. In this study, indirect stack cooling system using $CO_2$ heat pump was designed and its stack cooling performance in releasing heat to the ambient was investigated. This work focuses on a series of processes that grasp the relation among the fuel cell power, the radiator capacity and the stack temperature. The purpose of this work is to find out a way to properly release sufficient amount of heat through the finite sized radiator, so that the slack power generation can not be deteriorated due to the stack temperature increase. The optimization between the compressor power consumption and the fuel cell output power can be carried out to maximize the performance of fuel cell system.

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Solid Oxide Fuel Cells for Power Generation and Hydrogen Production

  • Minh, Nguyen Q.
    • Journal of the Korean Ceramic Society
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    • v.47 no.1
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    • pp.1-7
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    • 2010
  • Solid oxide fuel cells (SOFCs) have been under development for a variety of power generation applications. Power system sizes considered range from small watt-size units (e.g., 50-W portable devices) to very large multi-megawatt systems (e.g., 500-MW base load power plants). Because of the reversibility of its operation, the SOFC has also been developed to operate under reverse or electrolysis mode for hydrogen production from steam (In this case, the cell is referred to as solid oxide electrolysis cell or SOEC.). Potential applications for the SOEC include on-site and large-scale hydrogen production. One critical requirement for practical uses of these systems is long-term performance stability under specified operating conditions. Intrinsic material properties and operating environments can have significant effects on cell performance stability, thus performance degradation rate. This paper discusses potential applications of the SOFC/SOEC, technological status and current research and development (R&D) direction, and certain aspects of long-term performance degradation in the operation of SOFCs/SOECs for power generation/hydrogen production.

A Study on the Start-up and Shut-down Characteristics for PEMFC System (고분자 연료전지시스템의 기동 및 정지특성에 관한 연구)

  • Lee, Jung-Woon;Seo, Won-Seok;Kim, Young-Gyu
    • 한국신재생에너지학회:학술대회논문집
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    • 2008.05a
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    • pp.29-32
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    • 2008
  • Testing was conducted to determine the performance of a residential fuel cell system when subjected to DSS and WSS operation, especially for start-up and shut-down characteristics. In terms of start-up time, it took about 70min to start output power generation and stably to reach 1kW at cold start. Measurement of the characteristics of heat and power generation were carried out at start-up and shut-down time. Fuel gas is used for heating both reformer and stack from start-up to the beginning of power generation. In terms of start-up and shut-down characteristics, it was important to control the reformer temperature precisely. The average output water temperature during the rated output operation(960W) was $63.2^{\circ}C$ constantly. The results of the investigation are being used to develop a new test protocols for residential fuel cell system.

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An Experimental Study of Short Stack on the Performance of the Proton Exchange Membrane Fuel Cell for the Residential Power generation (소형 모듈 스택을 이용한 가정용 연료전지 성능의 실험적 고찰)

  • Choi, Won-Seok;Kim, Yong-Mo;Yu, Sang-Seok;Lee, Young-Duk;Hong, Dong-Jin;Ahn, Kook-Young
    • 한국신재생에너지학회:학술대회논문집
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    • 2008.05a
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    • pp.21-24
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    • 2008
  • Proton Exchange Membrane Fuel Cell (PEMFC) is an attractive candidate for residential power generator due to fast start-up and stop, high efficiency, low emission, and high power density. In this study, we employ short module stack to understand the performance of the unit cell of the stack in terms of operating temperatures. To simulate the practical fuel cell stack of residential power generator, the structure and active area of the short module stack is kept the same as that of the practical fuel cell. The results shows that the electric potential of short module stack is different from the number of cells times the potential of unit cell because of cell-to-cell variation.

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A Fuel Cell Generation System with a New Active Clamp Sepic-Flyback Converter

  • Lee, Won-Cheol;Jang, Su-Jin;Kim, Soo-Seok;Lee, Su-Won;Won, Chung-Yuen
    • Journal of Power Electronics
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    • v.9 no.1
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    • pp.26-35
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    • 2009
  • A high efficiency active clamp sepic-flyback converter is presented for fuel cell generation systems. The proposed converter is a superposition of a sepic converter mode and. flyback converter mode. The output voltages of the sepic converter mode and flyback converter mode can be regulated by the same PWM technique with constant frequency. By merging the sepic and flyback topologies, they can share the transformer, power MOSFET and active clamp circuit. The result has outstanding advantages over conventional active clamp DC-DC converters: high efficiency, high power density, and component utilization. Simulation results and experimental results are presented to verify the principles of operation for the proposed converter.