Coupling mesoscale transport to catalytic surface reactions in a hybrid model

Abstract: In heterogeneous catalysis, reactivity and selectivity are not only influenced by chemical processes occurring on catalytic surfaces but also by physical transport phenomena in the bulk fluid and fluid near the reactive surfaces. Because these processes take place at a large range of time and length scales, it is a challenge to model catalytic reactors, especially when dealing with complex surface reactions that cannot be reduced to simple mean-field boundary conditions. As a particle-based mesoscale method, S… Show more

“…Rather, relaxation dynamics, self-assembly, transport of complex solutes, or other multiscale phenomena are the subjects of physical interest. Passive versions of the MPCD algorithm have been widely used to simulate suspensions within a background fluid, including polymers (39,66,67), polyelectrolytes (68), catalytic surfaces (69), colloids (49,55,70), and swimmers (71)(72)(73). AN-MPCD opens the door to simulating such complex particles embedded within a spontaneously flowing active medium.…”

Mesoscopic simulations of active nematics

“…Rather, relaxation dynamics, self-assembly, transport of complex solutes, or other multiscale phenomena are the subjects of physical interest. Passive versions of the MPCD algorithm have been widely used to simulate suspensions within a background fluid, including polymers (39,66,67), polyelectrolytes (68), catalytic surfaces (69), colloids (49,55,70), and swimmers (71)(72)(73). AN-MPCD opens the door to simulating such complex particles embedded within a spontaneously flowing active medium.…”

Mesoscopic simulations of active nematics

“…60 Knowledge of the transport properties is also crucial for heterogeneous catalysis both on surfaces and in confined media. 61…”

Fluids meet solids

CFD modeling using reactions kinetics for selective hydrogenation for acetylene in a fixed-bed reactor