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Evaluating Opportunities for Reducing Life-Cycle, Well-to Pump GHG Emissions from Conventional and Unconventional Fuels. K.E. Kelly, J. Dumas, A.F . Sarofim, and D.W. Pershing University of Utah. Resource Extraction and Upgrading. Power for CO 2 capture. Oil shale. Oil sands. Crude oil.
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Evaluating Opportunities for Reducing Life-Cycle, Well-to Pump GHG Emissions from Conventional and Unconventional Fuels K.E. Kelly, J. Dumas, A.F. Sarofim, and D.W. Pershing University of Utah Resource Extraction and Upgrading Power for CO2 capture Oil shale Oil sands Crude oil Upgrading Opportunity: Oxyfiring for CO2 capture Transportation Refining Opportunity: Improved efficiency Opportunity: Oxyfiring for CO2 capture Distribution Evaluation of Improving Process Heater Efficiency to Reduce GHG Emissions from Refineries Evaluation of Oxyfiring for CO2 Capture to Reduce GHG Emissions from Refining Well-to-Pump Life Cycle GHG Emissions from Conventional and Unconventional Transportation Fuels Case 1: A gas turbine and associated steam production provides power for the ASU and CO2 purification, compression, etc. Case 2: A gas turbine provides power to the ASU and other equipment, but steam from the turbine replaces a portion of the boiler steam. This results in a lower O2 requirement, a smaller ASU, and less cooling water. Case 3: The gas turbine is run in the precombustion decarbonisation mode with part of the oxygen being used for hydrogen production and CO2 removal using MDEA. 72 g CO2 equiv./MJ fuel
