Abstract

The abundance of natural gas as a natural resource and its high hydrogen content make it a prime feedstock candidate for a low cost supply of hydrogen. The thermal decomposition of natural gas by methane decomposition produces carbon and hydrogen. Conventional steam reforming of natural gas produces CO 2 and hydrogen and requires more process energy. Methane decomposition produces the least amount of greenhouse gas CO 2 emissions per unit of hydrogen and can be totally eliminated when the carbon produced is sequestered or sold as a material.

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