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Skip to Search Results- 1Kuznicki,Steven (Chemical and Materials Engineering)
- 1Kuznicki,Steven M. (Chemical and Materials Engineering)
- 1Luo, Jing-Li (Chemical and Materials Engineering)
- 1Tan, Zhongchao (University of Waterloo)
- 1Xu, Zhenghe (Chemical and Materials Engineering)
- 1de Klerk, Arno (Chemical and Materials Engineering)
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Spring 2016
Asphaltenes are a solubility class and it is the material in oil that is insoluble in a paraffinic matrix. It is a major contributor to problems in many petroleum operations such as production, transportation, refining, precipitation, crude oil emulsification, and de-emulsification, and high...
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Fall 2011
This project was initiated to study the H2S removal process from liquid sulfur and later extended to generic liquid degassing scenarios. Enersul HyspecTM Degassing Process was first field tested so that comparison could be made with new units to be engineered. Two new degassing units were...
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Spring 2016
Direct desulfuization of syngas is an important measure to further increase the efficiency of IGCC systems. Solid-phase, metal oxide adsorbents which sequester the sulfur by converting H2S to a metal sulfide are the only desulfurization technology capable of withstanding the combustion...
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Characterization of copper supported on titanosilicates for room temperature H2S adsorption
DownloadSpring 2012
Hydrogen sulfide (H2S) is a major contaminant of industrial gas streams. Amongst the various methods used for its removal, adsorption by metal oxides is the most promising. Copper oxide (CuO) is shown to have superior H2S removal capability at room temperature. H2S removal at room...
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Spring 2013
SOFCs which can directly operate under high concentration of H2S would be economically beneficial as this reduces the cost of gas purification. H2S is highly reactive gas specie which can poison most of the conventional catalysts. As a result, developing anode materials which can tolerate high...