S. Liu scite author profile

The objective of this study was to examine the sulfur-mediated oxidation of ethane to ethylene. In summary, it has been found that ethylene can be produced in high yield (ca 75%) by the oxidation of ethane with excess sulfur in the 800-850 • C temperature range using a residence time of about 1 s. It is surmised that the high ethylene yield arises from the relatively weak C-S bond which precludes the formation of carbonsulfur compounds so favoring pathways to ethylene. A process scheme is suggested which incorporates ethylene production into sulfur recovery, plants for which are found in essentially all refineries and in sour gas processing. A potential advantage of this chemistry over standard ethane steam cracking is that the sulfur process considerably increases carbon efficiency for ethylene production as most of the energy required for ethylene synthesis is supplied by the oxidation of H 2 S.

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Recovery of Functional T Cells Specific for Persisting Virus Is Not Impaired in Patients With Chronic Graft-Vs-Host Disease

Hoegh-Petersen

Liu

et al. 2011

Biology of Blood and Marrow Transplantation

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High Herpesvirus-Specific T Cell Counts Are Associated With Near-Zero Likelihood of Malignancy Relapse and a Low Likelihood of Infections Due to Any Pathogen

Hoegh-Petersen

Ugarte-Torres

et al. 2011

Biology of Blood and Marrow Transplantation

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S. Liu

Regulation of the mesolimbic dopamine circuit by feeding peptides

Ethylene manufacture by partial oxidation with sulfur

Recovery of Functional T Cells Specific for Persisting Virus Is Not Impaired in Patients With Chronic Graft-Vs-Host Disease

High Herpesvirus-Specific T Cell Counts Are Associated With Near-Zero Likelihood of Malignancy Relapse and a Low Likelihood of Infections Due to Any Pathogen

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