• Title/Summary/Keyword: PEFC system

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Optimization of Air Supply for Increased Polymer Electrolyte Fuel Cell System Efficiency (고분자 전해질 연료전지 시스템의 효율향상을 위한 공기공급 최적화)

  • Chu, Keon-Yup;Jo, Ki-Chun;SunWoo, Myoung-Ho;Choi, Seo-Ho
    • Transactions of the Korean Society of Automotive Engineers
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    • v.19 no.3
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    • pp.44-51
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    • 2011
  • Polymer Electrolyte Fuel Cells (PEFCs) operate in wide-range changes in temperature, humidity, and electric current for automotive applications. In order to operate automotive PEFC efficiently, optimal air supply is required to adjust to these changes. This paper presents an air-supply optimization process that consists of experiments, modeling of the PEFC system, and optimization. The objective is to establish an air supply suitable for the required power for PEFC system and optimized with a Lagrange multiplier. Our simplified PEFC system model is used as a constraint for optimization problem. The result of this paper presents that efficient operation of PEFC system can be achieved by air-supply optimization.

Development of 1kW Class PEFC System for Residential Power Generation (1kW급 PEFC 가정용 연료전지 시스템 실증 연구)

  • Lee, Ho-Jun;Lee, Jung-Min;Hwang, Nam-Sun;Choi, Dong-Min;Lee, Jong-Wook;Oh, Si-Doek
    • 한국신재생에너지학회:학술대회논문집
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    • 2008.05a
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    • pp.17-20
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    • 2008
  • HYOSUNG manufactured and tested 1kW class PEFC systems to generate electrical and thermal energy for each residential usage. In particular, HYOSUNG developed power conditioning system that performs over 91% electrical conversion ratio specified in 1kW class PEFC systems. Prior to system integration, we tested each performances of components to derive control issues from it. In addition, we have been developing the adequate simulator to describe and predict system performance. In this paper, we verified HYOSUNG's 1kW class PEFC systems are valid for residential energy sources by testing the characteristics of systems and performances of main components.

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Development of 1kW Class PEFC System for Residential Applications (1kW급 가정용 연료전지 시스템 실증 연구)

  • Choi, Dong-Min;Shin, Bum-Su;Park, Yon-Goo;Ham, Mi-Sook;Shim, Jae-Hwi
    • Proceedings of the KIEE Conference
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    • 2008.10c
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    • pp.174-176
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    • 2008
  • HYOSUNG manufactured and tested 1kw class PEFC systems to generate electrical and thermal energy for each residential usage. In particular, HYOSUNG developed Power conditioning system that performs about 91% electrical conversion ratio specified in 1kW class PEFC systems. Prior to system integration, we tested each performances of components to derive control issues from it. In addition, we have been developing the adequate simulator to describe and predict system performance. In this paper, we verified HYOSUNG's 1kW class PEFC systems are valid for residential energy sureces by testing the characteristics of systems and performances of main component.

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Development of the 5kW Class Polymer Electrolyte Fuel Cell System for Residential Power Generation (5kW 급 주택용 고분자 연료전지 시스템)

  • Yang, Tae-Hyun;Park, Gu-Gon;Yoon, Young-Gi;Lee, Won-Yong;Yoon, Wang-Lai;Kim, Chang-Soo
    • Journal of Hydrogen and New Energy
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    • v.14 no.1
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    • pp.35-45
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    • 2003
  • Polymer electrolyte fuel cells(PEFC) have been considered to be a suitable candidate for residential, portable and mobile applications, due to their high efficiency and power density, even at low operating temperature. KIER developed a 5kW class PEFC system for residential application and operated the system for over 1,000 hours. To develop a 5kW PEFC system, performance of a cell was improved through successive tests of single cell of small and large area. Fabrication of three 2,5 kW class stacks, design and fabrication of natural gas reformer, design of auxiliary equipments such as DC/DC converter, DC/AC inverter and humidifying units were carried out along with integration of components, operation and evaluation of total system. During the development period from 1999 to 2001, MEA(membrane electrode assembly) fabrication technologies, design and fabrication technologies for separators, stacking technologies and so on were developed, thereby providing basis for developing stacks of higher efficiency and power density in the future. Experience of development of natural gas reformer opened possibilities to use various kinds of fuels. Main results obtained from the development of a 5kW class PEFC system for residential application are summarized.

Development of 1 kW class PEFC co-generation system for buildings (1kW 급 건물용 연료전지 시스템 개발 현황)

  • Jun, Hee-Kwon;Hwang, Jung-Tae;Lee, Kap-Sik;Choi, Choeng-Hoon;Lee, Dong-Hwal;Bae, Joon-Kang
    • 한국신재생에너지학회:학술대회논문집
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    • 2009.06a
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    • pp.328-330
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    • 2009
  • 1 kW class Polymer Electrolyte Fuel Cell(PEFC) co-generation systems have been developed from 2001 and evaluated for improvement of efficiency, durability and reliability of the system. This paper introduce new version system including with excellent reliability, durability and user friendly applications. Its electrical and overall efficiency showed 35 % and 80 %, respectively, and noise level of the system was less than 45 dB. In addition, this system have various functions such as load change, $N_2$ less purge, low emission and low temperature operation ($-15^{\circ}C$) through development of operation logic. This system was designed for convenient installation in indoor and outdoor due to the compactness of size and the separation of electrical and heat recovery units, which means a user can select the size of heat recovery unit.

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Design and Performance Test for a Fuel Cell Ejector to Reduce its Development Cost (개발 비용 감소를 위한 연료전지용 이젝터의 설계 및 성능평가)

  • Kim, Min-Jin;Kim, Dong-Ha;Yu, Sang-Phil;Lee, Won-Yong;Kim, Chang-Soo
    • Journal of Hydrogen and New Energy
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    • v.17 no.3
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    • pp.279-285
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    • 2006
  • Recirculation for the unreacted fuel is necessary to improve the overall efficiency of the fuel cell system and to prevent fuel starvation since the fuel cell for a vehicle application is a closed system. In case of the automotive fuel cell, the ejector which does not require any parasitic power is good for the performance improvement and easy operation. It is essential to design the customized ejector due to the lack of the commercial ejector corresponding to the operating conditions of the fuel cell systems. In this study, the design methodology for the ejector customized to an automotive fuel cell is proposed. The model based sensitivity analysis prevents the time-consuming redesign and reduces the cost of developing ejector. As a result, the customized ejector to meet the desired performance within overall operating range has developed for the PEMFC automotive system.

A Study on the Design and Efficiency of Membrane-Electrolyte Assembly in PEFC (PEFC 막-전극 접합체의 설계 및 효율에 관한 연구)

  • Kim H. G.;Kim Y. S.;Kim H. Y.;Yang Y. M.;Nah S. C.
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2005.05a
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    • pp.180-184
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    • 2005
  • An experimental study is performed to evaluate the performance and the efficiency by humidifying MEA and by making the double-tied catalyst layers in a fuel cell system which is taken into account the physical and thermal concept. An electrical output produced by PEFC(polymer Electrolyte Fuel Cell) is measured to assess the performance of the stack and the efficiency is also evaluated according to the different situation in which is placed with and without the humidification of MEA (Membrane Electrolyte Assembly). Subsequently, It is found that the measured values of stack voltage and current are influenced by the stack temperature, humidification, and the double-tied catalyst layers which gives more enhanced values to apply for electric units.

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Design and Performance Evaluation for a Fuel Cell/Battery Hybrid Mini-Bus Based on a Simulation (시뮬레이션 기반 연료전지/2차전지 하이브리드 미니버스의 설계 및 성능 평가)

  • Kim, Min-Jin;Kong, Nak-Won;Lee, Won-Yong;Kim, Chang-Soo
    • Journal of Hydrogen and New Energy
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    • v.18 no.1
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    • pp.60-66
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    • 2007
  • In terms of the vehicle efficiency, a fuel cell hybrid system has advantages compared to a conventional internal combustion engine and a fuel cell alone-powered system. The efficiency of the fuel cell hybrid vehicle mainly depends on the maximum power of the fuel cell and therefore it is important to decide the design value of the fuel cell maximum power. In this paper, to estimate the performance of the fuel cell hybrid mini-bus in the design phase the simulator based on the models for the fuel cell stack, the electric battery, the fuel cell balance of plant, the controller, and the vehicle itself is proposed. Additionally, the hybrid mini-bus efficiencies with several different fuel cell powers are simulated for a city driving schedule and are compared on another. Consequently, the proposed simulation scheme is useful to determine the best design value of the fuel cell hybrid vehicles.

Analysis for Performance of the HT-PEFC based Auxiliary Power Unit by Aspen Plus Software (Aspen Plus 프로그램에 의한 장갑차량용 고온고분자전해질 연료전지 기반 보조전원장치 성능 시뮬레이션 분석)

  • Yu, Minkyu;Park, Ji-il;Kwon, Hyuksang
    • Journal of the Korea Institute of Military Science and Technology
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    • v.19 no.2
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    • pp.211-217
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    • 2016
  • The fuel cell based auxiliary power unit (APU) is promising for power source of armed vehicles due to its silence and high efficiency. Especially, the on board hydrogen generation and fed to fuel cell system was core technology of this power system. In this study, we analyzed the performance of the Auto thermal reactor (ATR) that produce the hydrogen from the fuel, integrated High temperature polymer electrolyte fuel cell (HT-PEFC) by Aspen plus software. The fuel was designed as a n-dodecane for analysis of military fuel (JP-8).

A simulation study on operation strategy of residential fuel cell system for cost curtailment (운전비용 절감을 위한 가정용 연료전지 시스템의 운전전략 수립)

  • Hwang, Su-Young;Kim, Min-Jin;Lee, Jin-Ho;Lee, Won-Yong
    • 한국신재생에너지학회:학술대회논문집
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    • 2008.10a
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    • pp.55-58
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    • 2008
  • Residential fuel cell cogeneration systems have gained much interest due to its high efficiency. In this study, we have performed numerical simulation of residential fuel cell cogeneration system which includes a fuel cell/grid hybrid system. The cogeneration system consists of 1kW PEFC, cooling system, inverter/converter and reformer. Several empirical models have been employed for respective components to improve the accuracy of the simulations. The load varies seasonally. The present simulations can successfully predict the characteristics of the hybrid cogeneration system and thus it can be utilized for establishing an optimal operating strategy of the system.

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