In order to investigate the influence of diffusion processes on the efficiency of bioconversion for systems employing enzymes immobilized by phys. entrapment within polymeric matrix vesicles, a composite membrane system model has been envisaged which, by enlarging the scale of the vesicle, allows correlations between efficiency of bioconversion and the diffusion characteristics of the system. The permeation coeffs. of the diffusive reactants have been evaluated as well as the 'apparent' Michaelis-Menten const. of the enzyme reaction.
A composite membrane bioreactor. Part I. Physicochemical characterization / D'Ilario, Lucio; M. M., Steffan. - In: JOURNAL OF MOLECULAR CATALYSIS. - ISSN 0304-5102. - STAMPA. - 52:(1989), pp. 229-239. [10.1016/0304-5102(89)80025-2]
A composite membrane bioreactor. Part I. Physicochemical characterization
D'ILARIO, LUCIO;
1989
Abstract
In order to investigate the influence of diffusion processes on the efficiency of bioconversion for systems employing enzymes immobilized by phys. entrapment within polymeric matrix vesicles, a composite membrane system model has been envisaged which, by enlarging the scale of the vesicle, allows correlations between efficiency of bioconversion and the diffusion characteristics of the system. The permeation coeffs. of the diffusive reactants have been evaluated as well as the 'apparent' Michaelis-Menten const. of the enzyme reaction.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
