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We are developing a fundamental understanding of the kinetic and mass transfer phenomena in aqueous technologies for air pollution control and acid gas treating. Limestone slurry scrubbing is the dominant technology for sulfur dioxide removal.
Limestone slurry and other aqueous solutions may also be effective for removal of mercury from waste gases.
We are quantifying the absorption of mercury as a function of solution composition in a highly characterized wetted wall contactor. The results are interpreted with the theory of mass transfer with fast reaction in the boundary layer.
We are developing a fundamental understanding of the kinetic and mass transfer phenomena in aqueous technologies for air pollution control and acid gas treating. Limestone slurry scrubbing is the dominant technology for sulfur dioxide removal.
Limestone slurry and other aqueous solutions may also be effective for removal of mercury from waste gases.
We are quantifying the absorption of mercury as a function of solution composition in a highly characterized wetted wall contactor. The results are interpreted with the theory of mass transfer with fast reaction in the boundary layer.
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CARBON CAPTURE SCIENCE & TECHNOLOGY (2024): 100192
CARBON CAPTURE SCIENCE & TECHNOLOGY (2024)
Benjamin J. Drewry,Gary T. Rochelle
CARBON CAPTURE SCIENCE & TECHNOLOGY (2024): 100186-100186
Gary T. Rochelle, Fred Closmann,Miguel Abreu,Athreya Suresh Babu, Benjamin Drewry,Tianyu Gao, William A. Steen, Karen Farmer, Scott R. Bryan, Max Bernau,Andrew Sexton, Katherine Dombrowski,
INTERNATIONAL JOURNAL OF GREENHOUSE GAS CONTROL (2024): 104040
CARBON CAPTURE SCIENCE & TECHNOLOGY (2024): 100196
INTERNATIONAL JOURNAL OF GREENHOUSE GAS CONTROL (2023): 104009-104009
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCHno. 35 (2023): 13911-13921
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCHno. 10 (2023): 4433-4443
Industrial & Engineering Chemistry Researchno. 35 (2023): 13911-13921
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