During the upgrading of heavy petroleum, asphaltene is the most problematic impurity since it is the main cause of catalyst deactivation and sediments formation. This text highlights the various changes that these heavy and complex molecules undergo during catalytic hydroprocessing.
During the upgrading of heavy petroleum, asphaltene is the most problematic impurity since it is the main cause of catalyst deactivation and sediments formation. This text highlights the various changes that these heavy and complex molecules undergo during catalytic hydroprocessing.
Jorge Ancheyta is an R&D Project Leader in the Mexican Institute of Petroleum and a professor in the School of Chemical Engineering and Extractive Industries at the National Polytechnic Institute in Mexico City, Mexico. Fernando Trejo is a researcher in the Center of Research in Applied Science and Advanced Technology at the National Polytechnic Institute in Mexico City, Mexico. Mohan Singh Rana works at the Kuwait Institute for Scientific Research in Ahmadi, Kuwait.
Inhaltsangabe
Definition and Structure of Asphaltenes. Hydroprocessing of Heavy Oils. Changes in Asphaltenes during Hydrotreating. Catalyst Deactivation due to Asphaltenes. Sediments Formation. Hydrocracking and Kinetics of Asphaltenes. Fractionation of Heavy Crudes and Asphaltenes.
Definition and Structure of Asphaltenes. Hydroprocessing of Heavy Oils. Changes in Asphaltenes during Hydrotreating. Catalyst Deactivation due to Asphaltenes. Sediments Formation. Hydrocracking and Kinetics of Asphaltenes. Fractionation of Heavy Crudes and Asphaltenes.
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