MONTE-CARLO MODEL FOR THE HYDROGENATION OF ALKENES ON METAL CATALYST

A Monte-Carlo model for the simulation of alkene hydrogenation on meta llic catalysts has been developed and implemented in Fortran language. We describe the model employed for ethylene hydrogenation on platinum and show the flow chart of the program. Computational characteristics such as number of necessary calculations to reach steady state, runni ng times on different platforms, and effect of the size of the catalys t matrix, are presented. Good correlation between simulated and experi mental data was observed. A subroutine allows for visual observation o f the reaction. This approach is very useful for obtaining a personal impression of the important factors governing the reaction. By using t his example the advantages of Monte-Carlo simulation to test the level of understanding of catalytic phenomena are discussed. (C) 1998 John Wiley & Sons, Inc.