Add to ORKGLast year, Andersen Derosier and Jeremy Filteau did research on ethylene production from ethanol dehydration using ZSM-5. They noticed a trend in water loading with their experimentation and came to a conclusion that water inhibited ZSM-5 active sites. This experiment studied the kinetics of ethanol dehydration at lower conversion to determine whether their hypothesis was true and to see any other factors that may have caused that trend. The results from this experiment show that their hypothesis was true, and the reaction was limited due to diffusion limitations from the catalyst
Several H-zeolite and HZSM-5 catalysts was preparated and their characters have also been investigat...
Understanding the role of zeolite topology in defining its catalytic performance is of prime importa...
The formation of the hydrocarbon pool (HCP) in the ethanol-to-olefins (ETO) process catalyzed by H-S...
Our study used HZSM-5 (a zeolite catalyst) in the catalytic dehydration of ethanol to form ethylene,...
Ethanol dehydration to ethene via direct and ether mediated paths is mechanistically investigated vi...
Over 140 million tonnes of ethylene are produced annually by the cracking of petroleum feedstocks. ...
International audienceThe low-temperature dehydration of bioethanol-to-ethylene is of great interest...
University of Minnesota Ph.D. dissertation. August 2012. Major: Chemical Engineering. Advisor: Adity...
The increased demand for bulk hydrocarbons necessitates research into increasingly sustainable, ener...
In this present study, the catalytic dehydration of ethanol over three different Al-based solid acid...
Commercial bioethanol can be readily converted into ethylene by a dehydration process using solid ac...
Bioethanol dehydration was carried out in a bench scale reactor-loaded H-ZSM-5 molded catalyst, whic...
Ethanol dehydration to ethene is mechanistically decoupled from the production of higher hydrocarbon...
KIT-6 materials are large pore cubic Ia3d mesoporous silicate, with tunable pore size (4-12 nm) and ...
The authors have used a fast expansion cloud chamber to measure binary homogeneous nucleation rates ...
Several H-zeolite and HZSM-5 catalysts was preparated and their characters have also been investigat...
Understanding the role of zeolite topology in defining its catalytic performance is of prime importa...
The formation of the hydrocarbon pool (HCP) in the ethanol-to-olefins (ETO) process catalyzed by H-S...
Our study used HZSM-5 (a zeolite catalyst) in the catalytic dehydration of ethanol to form ethylene,...
Ethanol dehydration to ethene via direct and ether mediated paths is mechanistically investigated vi...
Over 140 million tonnes of ethylene are produced annually by the cracking of petroleum feedstocks. ...
International audienceThe low-temperature dehydration of bioethanol-to-ethylene is of great interest...
University of Minnesota Ph.D. dissertation. August 2012. Major: Chemical Engineering. Advisor: Adity...
The increased demand for bulk hydrocarbons necessitates research into increasingly sustainable, ener...
In this present study, the catalytic dehydration of ethanol over three different Al-based solid acid...
Commercial bioethanol can be readily converted into ethylene by a dehydration process using solid ac...
Bioethanol dehydration was carried out in a bench scale reactor-loaded H-ZSM-5 molded catalyst, whic...
Ethanol dehydration to ethene is mechanistically decoupled from the production of higher hydrocarbon...
KIT-6 materials are large pore cubic Ia3d mesoporous silicate, with tunable pore size (4-12 nm) and ...
The authors have used a fast expansion cloud chamber to measure binary homogeneous nucleation rates ...
Several H-zeolite and HZSM-5 catalysts was preparated and their characters have also been investigat...
Understanding the role of zeolite topology in defining its catalytic performance is of prime importa...
The formation of the hydrocarbon pool (HCP) in the ethanol-to-olefins (ETO) process catalyzed by H-S...