Search Results - "Arora, Sukaran S"

The critical role of methanol pressure in controlling its transfer dehydrogenation and the corresponding effect on propylene-to-ethylene ratio during methanol-to-hydrocarbons catalysis on H-ZSM-5 by Arora, Sukaran S., Bhan, Aditya

“…[Display omitted] •Methanol partial pressure controls propylene-to-ethylene ratio during MTH.•Formaldehyde co-feed with methanol or propylene results in…”
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Mechanistic Basis for Effects of High-Pressure H2 Cofeeds on Methanol-to-Hydrocarbons Catalysis over Zeolites by Arora, Sukaran S, Shi, Zhichen, Bhan, Aditya

“…Cofeeding high-pressure (16 bar) H2 with methanol (0.005 bar) during methanol-to-hydrocarbons conversion over acidic zeolites with varying topologies (CHA,…”
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Implications of Cofeeding Acetaldehyde on Ethene Selectivity in Methanol-to-Hydrocarbons Conversion on MFI and Its Mechanistic Interpretation by Khare, Rachit, Arora, Sukaran S, Bhan, Aditya

“…Cofeeding acetaldehyde (1–4 C%) with dimethyl ether (DME) and methanol (DME:methanol ∼9:1, on a carbon basis) on two MFI-type zeolites: a conventional (Conv)…”
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Lifetime improvement in methanol-to-olefins catalysis over chabazite materials by high-pressure H2 co-feeds by Arora, Sukaran S., Nieskens, Davy L. S., Malek, Andrzej, Bhan, Aditya

“…Mitigating catalyst deactivation in the industrially deployed process of methanol-to-olefins conversion over HSAPO-34 is a critical challenge. Here, we…”
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Mechanistic Basis for Effects of High-Pressure H 2 Cofeeds on Methanol-to-Hydrocarbons Catalysis over Zeolites by Arora, Sukaran S., Shi, Zhichen, Bhan, Aditya

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Kinetics of aromatics hydrogenation on HBEA by Arora, Sukaran S., Bhan, Aditya

“…[Display omitted] •Rates of aromatics hydrogenation depend linearly on aromatic and H2 pressures.•First hydrogenation step is rate-determining and H+ is the…”
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Methanol to hydrocarbons conversion: Why dienes and monoenes contribute differently to catalyst deactivation? by Shi, Zhichen, Arora, Sukaran S., Trahan, Daniel W., Hickman, Daniel, Bhan, Aditya

“…[Display omitted] •Dienes and formaldehyde are key intermediates in causing deactivation during MTH.•Distinct intermediates are formed during HCHO-monoenes and…”
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Ethylene Production from Carbonate Using a Bipolar Membrane Electrolysis System by Song, Hakhyeon, Fernández, Carlos A., Venkataraman, Anush, Brandão, Victor D., Dhingra, Sandeep S., Arora, Sukaran S., Bhargava, Saket S., Villa, Carlos M., Sievers, Carsten, Nair, Sankar, Hatzell, Marta C.

“…Electrochemical CO2 reduction has attracted significant interest as a pathway for achieving a carbon-neutral society. However, conventional gas-phase CO2…”
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