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Regenerative Adsorption and Removal of H2S from Hot Fuel Gas Streams by Rare Earth Oxides

Science  09 Jun 2006:
Vol. 312, Issue 5779, pp. 1508-1510
DOI: 10.1126/science.1125684

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Abstract

Sorbent materials that allow for high-temperature, regenerative desulfurization of fuel gas streams for the anode of a solid oxide fuel cell have been developed. Reversible adsorption of H2S on cerium and lanthanum oxide surfaces is demonstrated over many cycles at temperatures as high as 800°C, on both fresh or presulfided sorbents, and at very high space velocities. The adsorption and desorption processes are very fast, and removal of H2S to sub–parts per million levels is achieved at very short (millisecond) contact times. Any type of sulfur-free gas, including water vapor, can be used to regenerate the sorbent surface. Preferably, the anode off-gas stream is used to sweep the desorbed H2S to a burner.

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