Abstract
Abstract Greenhouse gas (GHG) concerns and tightening energy supply put pressure on both policy makers and technology developers to find optimum solution s. Furthermore, as conventional energy supply becomes scarce disadvantaged resources will share an increasing piece of the global energy portfolio. The conversion of these heavy resour ces will require a substantial increase in the production of hydrogen while complying with anticipated greenhouse gas regulations. This study investigated three alternative process configurations for the production of hydrogen and simultaneous capture of carbon dioxide (CO2) for geologic sequestration (CCS) using currently available technology. The economic benefit of these alternatives was compared to post-combustion CO2 capture from a modern hydrogen plant design.
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