This work presents computational fluid dynamics simulations aimed at characterizing flow and mass/heat transport mechanisms in spacer-filled channels for membrane processes, with particular reference to (reverse) electrodyalisis and membrane distillation.

Luigi Gurreri, I.E.M. (2019). Numerical simulations supporting process models of chemical engineering: applications for membrane systems. In Book of Abstracts Bridging science with technology A renaissance in chemical engineering (pp. 623-624) [10.3303/BOA1901].

Numerical simulations supporting process models of chemical engineering: applications for membrane systems

Luigi Gurreri
;
Mariagiorgia La Cerva;Alessandro Tamburini;Andrea Cipollina;Michele Ciofalo;Giorgio Micale
2019-01-01

Abstract

This work presents computational fluid dynamics simulations aimed at characterizing flow and mass/heat transport mechanisms in spacer-filled channels for membrane processes, with particular reference to (reverse) electrodyalisis and membrane distillation.
2019
CFD, mass transfer, heat transfer, membrane process, membrane deformation
978-88-95608-75-4
Luigi Gurreri, I.E.M. (2019). Numerical simulations supporting process models of chemical engineering: applications for membrane systems. In Book of Abstracts Bridging science with technology A renaissance in chemical engineering (pp. 623-624) [10.3303/BOA1901].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/371284
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