Significance of Rarefaction, Streamwise Conduction, and Viscous Dissipation on the Extended Graetz–Nusselt Problem: The Case of Finite-Length Microchannels with Prescribed Wall Heat Flux

Author:

Brasiello Antonio12ORCID,Adrover Alessandra1ORCID

Affiliation:

1. Dipartimento di Ingegneria Chimica, Materiali e Ambiente, Sapienza Università degli Studi di Roma, Via Eudossiana 18, Roma 00184, Italy

2. INSTM Consorzio Interuniversitario Nazionale per la Scienza e Tecnologia dei Materiali, Via G. Giusti 9, Firenze 50121, Italy

Abstract

The article addresses the extended Graetz–Nusselt problem in finite-length microchannels for prescribed wall heat flux boundary conditions, including the effects of rarefaction, streamwise conduction, and viscous dissipation. The analytical solution proposed, valid for low-intermediate Peclet values, takes into account the presence of the thermal development region. The influence of all transport parameters (Peclet Pe, Knudsen Kn, and Brinkman Br) and geometrical parameters (entry length and microchannel aspect ratio) is investigated. Performances of different wall heat flux functions have been analyzed in terms of the averaged Nusselt number. In the absence of viscous dissipation Br=0, the best heating protocol is a decreasing wall heat flux function. In the presence of dissipation Br>0, the best heating protocol is a uniform wall heat flux.

Publisher

Hindawi Limited

Subject

General Chemical Engineering

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