• Title/Summary/Keyword: Micro fuel cells

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Stand-Alone Type Single-Phase Fuel Cells Micro-Source with ac Voltage Compensation Capability (교류전압 보상 기능을 갖는 독립형 단상 연료전지 마이크로 소스)

  • Jung, Young-Gook
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.58 no.1
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    • pp.35-41
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    • 2009
  • This paper proposes a stand alone type single-phase fuel cells micro-source with a voltage sag compensator for compensating the ac output voltage variations (sag or swell) of micro-source. The proposed micro-source is consist of a PEM(polymer electrolyte membrane) fuel cells simulator, a full bridge de converter, a 60Hz PWM(pulse width modulation) VSI(voltage source inverter), and a voltage sag compensator. Voltage sag compensator is similar to the configuration of hybrid series active power filter, and it is directly connected to micro-source through the injection transformer. Compensation algorithm of a voltage sag compensator adopts a single phase p-q theory. Effectiveness of the proposed the system is verified by the PSIM(power electronics simulation tool) simulation in the steady state and transient state which the proposed system is able to simultaneously compensate the harmonic current and source voltage sag or swell.

A Study on the Optimum Design for LTCC Micro-Reformer: (Performance Evaluation of Various Flow Channel Structures ('LTCC를 소재로 하는 마이크로 리포머의 최적 설계에 관한 연구: (다양한 채널구조에 따른 성능변화 고찰)')

  • Chung Chan-Hwa;Oh Jeong-Hoon
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2006.05a
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    • pp.551-552
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    • 2006
  • The miniature fuel cells have emerged as a promising power source for applications such as cellular phones, small digital devices, and autonomous sensors to embedded monitors or to micro-electro mechanical system (MEMS) devices. Several chemicals run candidate at a fuel in those systems, such as hydrogen. methanol, ethanol, acetic acid, and di-methyl ether (DME). Among them, hydrogen shows most efficient fuel performance. However, there are some difficulties in practical application for portable power sources. Therefore, more recently, there have been many efforts for development of micro-reformer to operate highly efficient micro fuel cells with liquid fuels such as methanol, ethanol, and DME In our experiments, we have integrated a micro-fuel processor system using low temperature co-fired ceramics (LTCC) materials. Our integrated micro-fuel processor system is containing embedded heaters, cavities, and 3D structures of micro- channels within LTCC layers for embedding catalysts (cf. Figs. 1 and 2). In the micro-channels of LTCC, we have loaded $CuO/ZnO/Al_2O_3$ catalysts using several different coating methods such as powder packing or spraying, dipping, and washing of catalyst slurry.

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Concept, Manufacture and Results of the Microtubular Solid Oxide Fuel Cell

  • Sammes, Nigel;Galloway, Kevin;Yamaguchi, Toshiaki;Serincan, Mustafa
    • Transactions on Electrical and Electronic Materials
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    • v.12 no.1
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    • pp.1-6
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    • 2011
  • This paper summarized concept, manufacture and results of the micro-tubular solid oxide fuel cells (SOFCs). The cells were fabricated by co-sintering of extruded micro-tubular anode support and electrolyte coating layer, and then additional cathode coating. The cells showed quick voltage rising within 1 minute, and the electrochemical performances were closely related to the balance of fuel utilization and performance loss. And a thermal-fluid simulation model was also reported in combination with the electrochemical evaluation results on the GDC-based micro-tubular SOFCs.

Fabrication and Testing of Glass Bipolar Plates for Application on Micro PEM Fuel Cells (마이크로 연료 전지를 위한 유리 바이폴라 플레이트의 제작 방법 및 성능 평가)

  • Jang, Bo-Sun;Lee, Jong-Kwang;Kwon, Se-Jin
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2009.11a
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    • pp.289-292
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    • 2009
  • The fabrication method of glass bipolar plates for micro PEM fuel cell application has been established and performance evaluation has been carried out. The advantages of glass bipolar plates for micro PEM fuel cells are light weight, high chemical resistivity, and easy manufacture. The MEMS fabrication process of anisotropic wet etching, thermal & UV bonding along with metal layer deposition has been introduced. From performance evaluation, it was shown that the micro fuel cell with a metal layer deposited on the reactive area yielded higher power density than the one without it. But both power densities of the two cases showed out to be adequate with the current status of micro fuel cell technology.

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Fuel Cells for Intermediate Temperature Operations (저온 작동 박막 고체산화물 연료전지)

  • Shim, Joon-H.;Cha, Suk-Won;Gur, Turgut M.;Prinz Fritz B.
    • Journal of the Korean Ceramic Society
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    • v.43 no.12 s.295
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    • pp.751-757
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    • 2006
  • Recently, a new type of solid oxide fuel cells has been developed employing extremely thin oxide electrolyte. These fuel cells are expected to operate at significantly reduced temperature compared to conventional solid oxide fuel cells. Accordingly, they may resolve the stability and material selection issues of high temperature fuel cells. Furthermore, they may eliminate the limitations of polymer membrane fuel cells whose operation temperature is under $100^{\circ}C$. In this paper, we review the electrolytes for intermediate temperature operation. Then, we discuss the current development of thin film solid oxide fuel cells that possibly operated at low temperatures.

Micro Fuel Cells for the Portable Applications

  • Moon, Go-Young;Lee, Won-Ho
    • Korean Membrane Journal
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    • v.5 no.1
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    • pp.1-9
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    • 2003
  • Due to the increasing intelligence, the increasing connectivity, and always-on characteristics energy needs for the portable electronics cannot be managed by the state-of-art battery technology. Micro fuel cell fuelled by aqueous methanol is gaining lots of interest from the new energy storage developers since it has the potential to offer the longer operation time to the portable electronic devices. Although the technical barriers to the commercialization exit, it is expected that the micro fuel cell technology bring huge benefits to the current energy storage market once it matures. In the article, benefits, challenges and market players of the direct methanol fuel cell arena is briefly reviewed.

The Next Generation Large Capacity Battery Fuel Cells Technology and their Prospects

  • Kim, Gwang-Beom;Bang, Jin-Woo;You, Chung-Yeol;Soh, Dea-Hwa;Hong, Sang-Jeen
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2005.07a
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    • pp.611-612
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    • 2005
  • Fuel cells is proved that potential energy is greater than the existing power generation. In this paper, we describe a principle of fuel cell which is used for next generation portable battery and brief characteristic of direct methanol fuel cells (DMFCs) that used for portable appliances by miniaturization of polymer electrolyte fuel cell. Lastly we describe about research investment for fuel cells.

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Development of Synthetic Jet Micro Air Pump (Synthetic Jet 마이크로 에어펌프의 개발)

  • Choi, J.P.;Kim, K.S.;Seo, Y.H.;Ku, B.S.;Jang, J.H.;Kim, B.H.
    • Transactions of Materials Processing
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    • v.17 no.8
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    • pp.594-599
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    • 2008
  • This paper presents a micro air pump based on the synthetic jet to supply reactant at the cathode side for micro fuel cells. The synthetic jet is a zero mass flux device that converts electrical energy into the momentum. The synthetic jet actuation is usually generated by a traditional PZT-driven actuator, which consists of a small cylindrical cavity, orifices and PZT diaphragms. Therefore, it is very important that the design parameters are optimized because of the simple configuration. To design the synthetic jet micro air pump, a numerical analysis has been conducted for flow characteristics with respect to various geometries. From results of numerical analysis, the micro air pump has been fabricated by the PDMS replication process. The most important design factors of the micro air pump in micro fuel cells are the small size and low power consumption. To satisfy the design targets, we used SP4423 micro chip that is high voltage output DC-AC converter to control the PZT. The SP4423 micro chips can operate from $2.2{\sim}6V$ power supply(or battery) and is capable of supplying up to 200V signals. So it is possible to make small size controller and low power consumption under 0.1W. The size of micro air pump was $16{\times}13{\times}3mm^3$ and the performance test was conducted. With a voltage of 3V at 800Hz, the air pump's flow rate was 2.4cc/min and its power consumption was only 0.15W.