Stephen M. Kovach scite author profile

Stephen M. Kovach

5Publications

38Citation Statements Received

34Citation Statements Given

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

Ocampo¹,

Schrodt²,

Kovach³

1978

Ind. Eng. Chem. Prod. Res. Dev.

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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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Deactivation of Hydrodesulfurization Catalysts under Coal Liquids. 2. Loss of Hydrogenation Activity Due to Adsorption of Metallics

Kovach¹,

Castle²,

Bennett³

et al. 1978

Ind. Eng. Chem. Prod. Res. Dev.

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Minerals identified in coal were investigated as to their poisoning effect on the hydrogenation activity of several HDS catalysts under coal liquefaction conditions. Techniques of impregnation and exposure of catalysts to metal compounds were developed that allow the determination of rates of adsorption, poisoning, and loss of activity.The metals Na, K, Mg, Ca, P, Ti, Fe, and Si were shown to permanently poison catalysts at different rates. Deposition of carbonaceous mineral within the catalyst pores suppresses the adsorption of coal-liquid insoluble constituents. However, organometallics, such as those of titanium, are soluble in coal liquids, gain access to the surfaces, and are adsorbed in high concentrations.

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Intact Alkylation of Benzene - Some Unusual Differences in Catalyst Systems

Sanford¹,

Kovach²,

Friedman³

1959

Ind. Eng. Chem.

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Aromatic Alkylation. I. Intact Alkylation of Benzene and Toluene with Diisobutene

Sanford¹,

Kovach²,

Friedman³

1953

J. Am. Chem. Soc.

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Flexible Endoscopes

Buelow-Smith¹,

Kovach²

2009

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Stephen M. Kovach

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

Deactivation of Hydrodesulfurization Catalysts under Coal Liquids. 2. Loss of Hydrogenation Activity Due to Adsorption of Metallics

Intact Alkylation of Benzene - Some Unusual Differences in Catalyst Systems

Aromatic Alkylation. I. Intact Alkylation of Benzene and Toluene with Diisobutene

Flexible Endoscopes

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