Four‐lump kinetic model for fluid catalytic cracking process
- 1 August 1989
- journal article
- research article
- Published by Wiley in The Canadian Journal of Chemical Engineering
- Vol. 67 (4) , 615-619
- https://doi.org/10.1002/cjce.5450670414
Abstract
In the fluid catalytic cracking reactor heavy gas oil is cracked into more valuable lighter hydrocarbon products. The reactor input is a mixture of hydrocarbons which makes the reaction kinetics very complicated due to the involved reactions. In this paper, a four‐lump model is proposed to describe the process. This model is different from others mainly in that the deposition rate of coke on catalyst can be predicted from gas oil conversion and isolated from the C1–C4 gas yield. This is important since coke supplies heat required for endothermic reactions occurring in the reactor. By this model we can also conclude that the C1–C4 gas yield increases with increasing reactor temperature, while production of gasoline and coke decreases.Keywords
This publication has 8 references indexed in Scilit:
- A lumping and reaction scheme for catalytic crackingAIChE Journal, 1976
- A Kinematic Model for Catalytic Cracking in a Transfer Line ReactorIndustrial & Engineering Chemistry Process Design and Development, 1976
- Theoretical interpretation of gas oil conversion data on an x‐sieve catalystThe Canadian Journal of Chemical Engineering, 1971
- A theoretical treatment of catalyst decayThe Canadian Journal of Chemical Engineering, 1968
- Model of Catalytic Cracking Conversion in Fixed, Moving, and Fluid-Bed ReactorsIndustrial & Engineering Chemistry Process Design and Development, 1968
- The Effect of Operational Variables in Fluid Catalytic Cracking of PetroleumChemical engineering, 1962
- Reaction Rates in Catalytic Cracking of PetroleumIndustrial & Engineering Chemistry, 1953
- Carbon Formation in Catalytic CrackingIndustrial & Engineering Chemistry, 1945