Absorption kinetics and first-order reaction models on fractal lattices are studied. Adsorption kinetics in macro/microporous fractal solids showing fractal scaling properties and a complex topological pore-network structure are developed by considering the coupling of two fractal graphs. For first-order reactions on fractal substrata, the exact determination of the behavior of the effectiveness factor vs the Thiele modulus is obtained. A model for analyzing the spatial concentration distribution in a fractal catalyst is proposed.
Exact solution of linear transport equations in fractal media- III. Adsorption and chemical reaction / Giona, M.; Adrover, Alessandra; Schwalm, W. A.; Schwalm, M. K.. - In: CHEMICAL ENGINEERING SCIENCE. - ISSN 0009-2509. - 51:22(1996), pp. 5065-5076.
Exact solution of linear transport equations in fractal media- III. Adsorption and chemical reaction
M. Giona;ADROVER, Alessandra;
1996
Abstract
Absorption kinetics and first-order reaction models on fractal lattices are studied. Adsorption kinetics in macro/microporous fractal solids showing fractal scaling properties and a complex topological pore-network structure are developed by considering the coupling of two fractal graphs. For first-order reactions on fractal substrata, the exact determination of the behavior of the effectiveness factor vs the Thiele modulus is obtained. A model for analyzing the spatial concentration distribution in a fractal catalyst is proposed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
