Formation of coke during thermal hydrocracking of Athabasca bitumen

The kinetics of formation of light, saturated hydrocarbons (C,C,), hydrogen sulphide and a mixture of olefms (C,C,), carbon monoxide, carbon dioxide and pentanes (g) in the hydrocracking of Athabasca bitumen were investigated. Hydrocracking was conducted both in the absence and in the presence of a

## Conventional catalysts are rapidly fouled with coke deposits when they are used to hydrocrack residual oils. The work reported here was part of an investigation on the removal of coke-forming compounds from residual oils prior to their contact with catalysts. Semianthracite ccal particles have

Results of isothermal and temperature-programmed pyrolysis experiments in an inert atmosphere and at temperatures from 350 to 1000°C are presented. Thermogravimetric techniques using a recording microbalance were employed for following the weight changes occurring during the pyrolysis. Several techn

The effects of catalyst particle size on the hydrocracking reactions of Athabasca bitumen were studied in the presence ofCoO-MoO,/Al,O, catalyst. Six different catalyst particle sizes, namely 3.2,1.7, 1.18,0.6,0.3 and co.15 mm were employed in the hydrocracking reactions. Reducing the catalyst size