J. Thomas Schrodt scite author profile

A technique has been developed for measuring the hydrogenation activities of hydrodesulfurization catalysts before, during, and after the liquefaction of coal. Using this technique, rapid and severe deactivation of catalysts occurs within the first few hours of on-stream coal processing. This is a nonpermanent type clearly caused by the deposition of carbonaceous materials in the pore structure of the catalysts. Catalysts can be fully regenerated after short processing times to nearly their virgin active states. After their initial period of deactivation, the catalysts attain a level of activity that strongly depends upon their chemical composition, surface area, and the distribution of surface area with the pore structure. Catalysts with a preponderance of surface area in pores with r > 6.0 nm show a higher level of activity. The early stage of deactivation is related to carbon laydown and not the ash content of the coal; however, coals with high hydrogen contents are slightly less prone to this type of aging. Atomic absorption analysis reveals the presence of small quantities of metallics which are not responsible for the early stage of deactivation, but slowly lead to a permanent decline in activity.

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Variations in the pore structure of oil shales during retorting and combustion

Schrodt

Ocampo

1984

Fuel

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Binary liquid viscosities and their estimation from classical solution thermodynamics

Schrodt¹,

Akel²

1989

J. Chem. Eng. Data

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A model is presented for the viscosity of liquid mixtures that Is based upon familiar principles of solution thermodynamics and Eyrlng's concept of fluid viscosity. The free energy of activation for viscous flow Is divided into Ideal and excess parts, and the excess function gives a measure of the deviation from Ideal behavior for each species at each concentration. The model does not dictate how the deviation should be predicted; however, three equations used In predicting VLE data were successful In predicting mixture viscosities. The model can describe highly nonideal systems but reduces, simply, to fit Ideal systems and limiting viscosity behavior as x, -1. Liquid viscosities and densities of six organic binary mixtures were measured at 24.7 °C. These and five published sets of viscosity data are used to compare this new method with four established ones.

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High-temperature desulphurization of low-CV fuel gas

Schrodt

Hilton

Rogge

1975

Fuel

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J. Thomas Schrodt

Comparison of pore structure in Kentucky coals by mercury penetration and carbon dioxide adsorption

Deactivation of Hydrodesulfurization Catalysts under Coal Liquids. 1. Loss of Hydrogenation Activity Due to Carbonaceous Deposits

Variations in the pore structure of oil shales during retorting and combustion

Binary liquid viscosities and their estimation from classical solution thermodynamics

High-temperature desulphurization of low-CV fuel gas

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