• Title/Summary/Keyword: Diaphragm blower

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Development of 4 Types of Fuel Cell's Blower (연료전지 블로어 4기종 국산화 개발)

  • Tak, Bong-Yeol;Kim, Chan-Gyu;Lee, So-A;Jang, Chun-Man
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.05a
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    • pp.91-91
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    • 2011
  • This paper describes development procedure of the four types of fuel cell's blowers: pressurized fuel blower, selective oxidation air blower, cathode air blower, and burner air blower. Diaphragm blowers having two heads are selected to maintain force balance when the rotating arms are moving by the driving motor. Dimensions of a diaphragm cavity is designed according to the optimal design procedure using numerical simulation and experimental measurement. Experimental apparatus is designed by considering the bower characteristics having low flow rate and high pressure. Test blower is operated by a diaphragm, which has suction and discharge port on the top of the blower. For analyzing the internal flow of the blower, three-dimensional Navier-Stokes analysis is introduced in the present study. Throughout the optimal design of the blowers, blower performance is enhanced by reducing the unbalance motion of the rotating arm and loss region in the diaphragm cavity.

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Unsteady Internal Flow Analysis of a Cathode Air Blower Used for Fuel Cell System (연료전지용 캐소드 공기블로어의 비정상 내부유동장 연구)

  • Jang, Choon-Man;Lee, Jong-Sung
    • New & Renewable Energy
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    • v.8 no.3
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    • pp.6-13
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    • 2012
  • This paper describes unsteady internal flow characteristics of a cathode air blower, used for the 1 kW fuel cell system. The cathode air blower considered in the present study is a diaphragm type blower. To analyze the flow field inside the diaphragm cavity, compressible unsteady numerical simulation is performed. Moving mesh system is applied to the numerical analysis for describing the volume change of the diaphragm cavity in time. Throughout a numerical simulation by modeling the inlet and outlet valves in a diaphragm cavity, unsteady nature of an internal flow is successfully analyzed. Variations of mass flow rate, force and pressure on the lower moving plate of a diaphragm cavity are evaluated in time. The computed mass flow rate at the same pressure and rotating frequency of a motor has a maximum of 5 percent error with the experimental data. It is found that flow pattern at the suction process is more complex compared to that at the discharge process. Unsteady nature of internal flow in the cathode air blower is analyzed in detail.

Internal Flow Analysis of a Fuel Pressurized Blower for Fuel Cell System (연료전지용 연료승압 블로어 내부유동장 평가)

  • Choi, Ka-Ram;Jang, Choon-Man
    • New & Renewable Energy
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    • v.7 no.3
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    • pp.29-35
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    • 2011
  • This paper describes an internal flow characteristics of a fuel pressurized blower, used for 1kW domestic fuel cell system. To analyze the flow field inside the diaphragm cavity, compressible unsteady numerical simulation is introduced. SST model with scalable wall function is employed to estimate the eddy viscosity. Moving mesh system is applied to the numerical analysis for describing the volume change of a diaphragm cavity in time. Throughout numerical simulation with the modeling of the inlet and outlet valves in a diaphragm cavity, unsteady nature of an internal flow is successfully analyzed. Force variations on the lower plate of a diaphragm cavity are evaluated in time. It is found that the driving force at the suction stage of a diaphragm cavity is more necessary than that at the discharging stage.

Internal Flow Analysis on the Fuel Cell's Blower (연료전지용 연료승압블로어 내부유동장 평가)

  • Jang, C.M.;Choi, K.R.;Tak, B.Y.;Kim, C.G.
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.05a
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    • pp.87.2-87.2
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    • 2011
  • This paper describes internal flow of a fuel cell's blower, which is mainly used for detached house and apartment. Test blower is operated by a diaphragm, which has suction and discharge port on the top of the blower. For analyzing the internal flow of the blower, three-dimensional Navier-Stokes analysis is introduced in the present study. Hybrid grid system consisted of hexa hedral, tetra hedral and prism mesh is adopted to describe the complex geometry of the diaphragm blower. Throughout the numerical simulation, it is found that the present numerical modeling for analyzing the internal flow of the test blower is suitable for understanding the unsteady nature inside the cavity of the diaphragm. Detailed unsteady flow is analyzed using the results obtained by numerical simulation.

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A Study on Safety Performance Evaluation of NG Blower for 5 kW Class Stationary Fuel Cell Systems (5 kW급 건물용 연료전지 시스템 연료승압 블로워 안전 성능 평가에 관한 연구)

  • BAEK, JAE-HOON;LEE, EUN-KYUNG;LEE, JUNG-WOON;LEE, SEUNG-KUK;MOON, JONG-SAM;KIM, KYU-HYUNG;PARK, HAN-WOO;KIM, DONG-CHEOL;LEE, JIN-HEE
    • Journal of Hydrogen and New Energy
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    • v.28 no.6
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    • pp.675-682
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    • 2017
  • New government, the market for stationary fuel cell systems in domestic is expected to expand in line with the policy for expanding new and renewable energy. In order to promote and expand the domestic market for stationary fuel cell systems, it is required to do research and develop for cost reduction and efficiency improvement technologies through the localization of BOP. In this study, the safety performance including the power consumption, flow rate, noise and air-tightness of the domestic fuel booster blower and the foreign fuel booster blower was evaluated and the performance improvement of the domestic blower was confirmed. As a result of the power consumption measurement and the flow rate according to the back pressure of the A company 2nd prototype and B company, the values were 73 W, 27 LPM, and 55 W, 25 LPM. These results are attributed to the improvement of performance through design changes such as CAM angle and diaphragm material.

A Study on the Worst Stress Condition Test Evaluation of Blowers for Small Stationary Fuel Cell System (소용량 건물용 연료전지시스템 블로워의 가혹조건 평가에 관한 연구)

  • Kim, Kangsoo;Lee, Deokkwon;Lee, Jungwoon;Kim, Eunjung;Kim, Inchan;Kim, Younggyu;Shin, Hunyong
    • Journal of the Korean Institute of Gas
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    • v.16 no.6
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    • pp.34-40
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    • 2012
  • The fuel cell is one of the renewable energy sources. And it is a new source of energy that can be applied to various fuels and continuously supported by the excellent city-gas infrastructure. It is important to improve performances and reliabilities, and reduce the cost of fuel cell systems for commercialization. And, some safety performances of blower domestically produced are evaluated and some improvements are researched to save the cost of fuel cell systems. In this paper, the performance and worst stress condition of blowers are evaluated in operating environment similar to the fuel cell systems. Actually, the correlation of flow, leakage and thermal behavior are evaluated in the worst stress condition at $70^{\circ}C$ and, some major factors of blower degradation such as a motor deterioration, material and structures of the outlet are examined.