• Title/Summary/Keyword: NG blower

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A Study on Connection of Fuel Processor and NG blower for Small Commercial Fuel Cell System (건물용 연료전지 시스템용 연료처리장치와 연료승압 블로워 연계 특성에 관한 연구)

  • Kim, Jaedong;Jang, Sejin;Kim, Bonggyu;Kim, Jinwook;Han, Sienho;Park, Dalryung
    • Journal of the Korean Institute of Gas
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    • v.21 no.5
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    • pp.36-44
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    • 2017
  • The small commercial fuel cell is a new energy system that produces electricity and heat through electrochemical reaction between air and hydrogen. In Korea, hundreds of domestic small commercial fuel cell systems have been installed and operated every years and many parts in fuel cell systems depend on overseas products. KOGAS(Korea Gas Corporation) has developed the fuel processor which is an important part of fuel cell system and has evaluated the long-term durability. And KOGAS has evaluated domestic and overseas NG blower and fuel processor connected to NG blower. The fuel processor developed by KOGAS have maintained an efficiency of 76% and constant performance over 3,000 hours. The NG blower developed in Korea showed similar characteristics as overseas NG blower in the evaluation of power consumption according to rear pressure and outside temperature. The fuel processor module, fuel processor connected to BOP showed excellent performance.

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.