Heat transfer properties of metal foam supports for structured catalysts: Wall heat transfer coefficient

Bianchi E, Heidig T, Visconti CG, Groppi G, Freund H, Tronconi E (2013)


Publication Status: Published

Publication Type: Journal article

Publication year: 2013

Journal

Publisher: Elsevier

Book Volume: 216

Pages Range: 121-134

DOI: 10.1016/j.cattod.2013.06.019

Abstract

In this work we investigate the heat transfer within single phase tubular reactors packed with open-cell metal foams. Special focus is on the role of the coupling between the foam packing and the reactor tube wall. Steady-state heat transfer experiments were carried out in a tube of 28 mm inner diameter packed with different open-cell foams using N-2 or He at a flow rate ranging from 15 to 35 Nl/min. The foam samples were made of either FeCrAlY or aluminum with porosities in the range of 89-95% and pore densities ranging from 10 to 40 PPI (nominal pores per linear inch). For this purpose, axial and radial temperature profiles along the tested foam samples and along the tube wall were collected in heating and cooling runs within a temperature range from 400 to 800 K. The effective radial and axial conductivity and the wall heat transfer coefficient were then estimated for each run by nonlinear regression, using a 2D pseudo-homogeneous heat transfer model. The collected data allowed deriving a correlation for the wall heat transfer coefficient as a function of the process conditions and of the foam structural properties. Complementary to these experimental investigations, a numerical study in a 3D geometry of a foam sample reconstructed from X-ray micro-computed tomography data was carried out in order to analyze the heat transfer process close to the wall. For this, the conjugated heat transfer in both the solid and the fluid phase was investigated by finite volume analysis for selected experimental conditions. Both experiments and simulations confirm that the wall heat transfer resistance depends strongly on the gas conductivity and on the foam geometry, but more weakly on the flow velocity. (C) 2013 Elsevier B.V. All rights reserved.

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APA:

Bianchi, E., Heidig, T., Visconti, C.G., Groppi, G., Freund, H., & Tronconi, E. (2013). Heat transfer properties of metal foam supports for structured catalysts: Wall heat transfer coefficient. Catalysis Today, 216, 121-134. https://doi.org/10.1016/j.cattod.2013.06.019

MLA:

Bianchi, Enrico, et al. "Heat transfer properties of metal foam supports for structured catalysts: Wall heat transfer coefficient." Catalysis Today 216 (2013): 121-134.

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