Novel FCC technologies based on reaction chemistry of catalytic cracking
The increased use of opportunity crude oils in refinery processing, the growing demand for light fuel, and the efficient conversion of petroleum resources to refined fuels and basic chemical raw materials have become the basis of green and low-carbon refining technology developments.
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The Authors
Xie C. - SINOPEC Engineering Inc., Beijing, China
MR. Xie is a Professor and Manager of Sinopec’s technical marketing division in the company’s Research Institute of Petroleum Processing (RIPP). He has 30 yr of experience in developing novel FCC technologies for maximizing chemicals production.
Wei, X. - SINOPEC Engineering Inc., Beijing, China
Dr. Wei is a Professor in Sinopec RIPP’s catalytic cracking department in Beijing, China. Wei holds a PhD in chemical engineering from RIPP. Her main research fields include research and development of fundamental theory and technology for the FCC process.
Gong, J. - SINOPEC Engineering Inc., Beijing, China
Dr. Gong is a Professor and the Deputy Director of catalytic cracking process research in Sinopec’s RIPP. He has more than 17 yr of experience in developing new FCC processes to meet increasingly stringent gasoline specification and to adjust product slates to meet market demand.
Long, J. - SINOPEC Engineering Inc., Beijing, China
Dr. Long is the former President of Sinopec’s RIPP. Dr. Long has more 40 yr of experience in research and development, oil refining and petrochemical integration, and applications for heavy oil processing, residue high-efficiency conversion and clean fuel production.
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