p-Xylene yield in fluid catalytic cracking products

Fluid catalytic cracking, a common secondary process employed in the petroleum industry, is used to convert heavier feedstocks into products such as liquefied Petroleum Gas (LPG), motor gasoline, diesel etc. The present study focuses on developing a three lump fraction kinetic model to estimate the

A marked increase in prices of precious-metal catalysts, including those for cleaning automotive exhaust gas, and silica and alumina catalysts played a key role in the results. Domestic producers saw their shipments rise 8% in terms of volume and 32% in value terms to exceed Yen 300 bn. Exports of a

A population balance model has been developed for catalyst propemes, which IS m good agreement with commercml flmd crackmg data The apphcatlon of Markov theorv gives a detaded account of the volume, age, actlvlty, and residence time of catalvsts for each oartlcle size class This model has been used

A mathematical model has been developed for the simulation of gas-particle flow and fluid catalytic cracking in downer reactors. The model takes into account both cracking reaction and flow behavior through a four-lump reaction kinetics coupled with two-phase turbulent flow. The prediction results s