Oxy-Fuel Combustion Process: Difference between revisions
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*Thus nitrogen dioxides are near impossible | *Thus nitrogen dioxides are near impossible | ||
*Also reduces exhaust/flue gas volume | *Also reduces exhaust/flue gas volume | ||
*Outside of cases where the | *Outside of cases where the flue contains sulfur compounds or heavy metals, the flue gas is almost pure carbon dioxide and water vapor | ||
*The water can be condensed leaving near pure carbon dioxide for use in [[CO2 Enrichment]], Industrial Use (Chemical Reactant, Woking Fluid, Carbonation etc), or for [[Carbon Capture and Storage]] workflows | *The water can be condensed leaving near pure carbon dioxide for use in [[CO2 Enrichment]], Industrial Use (Chemical Reactant, Woking Fluid, Carbonation etc), or for [[Carbon Capture and Storage]] workflows | ||
*Main methods are: | *Main methods are: | ||
Revision as of 20:39, 6 July 2020
Basics
- Industrial Combustion (For heating, gassification, or other processes) that uses pure oxygen for oxidiser
- Thus nitrogen dioxides are near impossible
- Also reduces exhaust/flue gas volume
- Outside of cases where the flue contains sulfur compounds or heavy metals, the flue gas is almost pure carbon dioxide and water vapor
- The water can be condensed leaving near pure carbon dioxide for use in CO2 Enrichment, Industrial Use (Chemical Reactant, Woking Fluid, Carbonation etc), or for Carbon Capture and Storage workflows
- Main methods are:
- Replacing the "Air in" in a burner/combustor with (sometimes dilluted) oxygen
- Chemical Looping Combustion
Internal Links
External Links
[[Category: Power ? ]