Modeling heterogeneous catalysts with homogeneous catalysts: modeling the hydrodenitrogenation reaction

Abstractane-dimensional models for porous catalysts and laminar flow tubular reactors with first-order reactions at the walls are developed. The method which is used replaces the transport equations containing the local concentrations with equations, similar to those used in the dispersion theory, f

## Abstract **Summary:** The microstructure of ethylene‐norbornene copolymer produced in solution polymerization is analyzed through kinetic modeling and experiments using homogeneous __rac__‐Et(1‐indenyl)~2~ZrCl~2~/methylaluminoxane catalyst in toluene at 70 °C. The sequence distribution function

model IS proposed for descnbmg mass transfer of gaseous reactants and products m supported hqutd-phase catalysis It IS based on the dusty-gas equation and incorporates the pore-sue datnbution of the dry support as well as the nonumform bqmd-phase dlstnbution Expenmental tesw was conducted with three

## Abstract The reaction of myristic acid (MA) and isopropyl alcohol (IPA) was carried out by using both homogeneous and heterogeneous catalysts. For a homogeneously catalyzed system, the experimental data have been interpreted with a second order, using the power‐law kinetic model, and a good agre