论文信息 - Design of compact methanol reformer for hydrogen with low CO for the fuel cell power generation

Design of compact methanol reformer for hydrogen with low CO for the fuel cell power generation

Abstract The effect of the heat transfer area and the thermal conductivity of the reactor materials are evaluated with three identical structured reactors having multiple columned-catalyst bed and using three different reactor materials, aluminum alloy, brass and stainless steel. A series of compact methanol reformers are then designed and fabricated with the use of large reactor surface area in catalyst beds and high heat transfer constant to produce hydrogen fuel with 2–4 ppm of CO for the fuel cell (FC) power generation. The same design principle is successfully used for easy scale up of the reactor capacity from 250 L/h to 10,000 L/h. This low CO hydrogen (68–70%) used as the fuel for the fuel cell power generation provides a very competitive cost of hydrogen and electric power, $0.20–0.23/m 3 of H 2 and $0.196/KWh, respectively.

G. T. Yeh | S. Y. Yang | Harvey H.F. Wang | S. C. Chen | M. H. Rei

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