Heat transfer simulation in a thermochemical solar reactor based on a volumetric porous receiver

Villafán-Vidales, Heidi Isabel; Abanades, Stéphane; Caliot, Cyril; Romero-Paredes, H.

doi:10.1016/j.applthermaleng.2011.06.022

Cited by 108 publications

(30 citation statements)

References 28 publications

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“…Their prevalence over porous medium reactors for solar driven methane reforming was sought to higher porosity to allow CSI to penetrate deeper in the volume of porous medium. During the following decades, ETH [18], CNRS-PROMES laboratory [19] and CETRH/CPERI laboratory [20] had manufactured many types of porous medium solar thermochemical reactors coated with catalyst to absorb CSI to maintain the operational temperature for methane reforming reaction. Gokon et al had adopted metallic porous media reactor coated with Ru/g-Al 2 O 3 catalyst for solar methane reforming reaction [21].…”

Section: Introductionmentioning

confidence: 99%

Effects of key factors on solar aided methane steam reforming in porous medium thermochemical reactor

Wang

Tan

et al. 2015

Energy Conversion and Management

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Section: Introductionmentioning

confidence: 99%

Effects of key factors on solar aided methane steam reforming in porous medium thermochemical reactor

Wang

Tan

et al. 2015

Energy Conversion and Management

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“…The p 1 approximation does not require significantly more computational expense-a Helmholz equation must be solved everywhere in space-but can handle media that are more optically thin than the RD (Modest, 2013). The p 1 approximation has been used to study several STRS designs based on porous materials (Bala Chandran et al, 2015b;Villafán-Vidales et al, 2011;Wang et al, 2014a,b).…”

Section: Radiative Energy Transfermentioning

confidence: 99%

“…Thus, one energy conservation equation (15) is solved for each phase. The use of local thermal non-equilibrium (LTNE) appears widely in the literature when using homogenisation Belghit, 2011a, 2011b;Groehn et al, 2016;Kenarsari and Zheng, 2014;Villafán-Vidales et al, 2011;Wang et al, 2014a;Wang et al, 2014b;Zedtwitz et al, 2007;Zedtwitz and Steinfeld, 2005) or when the phases are resolved individually (Abanades et al, 2007;Oles and Jackson, 2015), though there are examples of high solid fraction studies in fixed beds where the single temperature-or local thermal equilibrium (LTE)-assumption is made (Lapp et al, 2013;Lapp and Lipiń ski, 2014;Lu et al, 2016;Martinek et al, 2014). The approximation of LTE is valid when any local temperature differences between a fluid and a solid are much smaller than the temperature differences that appear in the whole system.…”

Section: Energy Transfermentioning

confidence: 99%

“…(6) to account for momentum losses in the porous material as seen in (Bader et al, 2015;Bala Chandran et al, 2015a;Bala Chandran et al, 2015b;Lu et al, 2016;Villafán-Vidales et al, 2011;Wang et al, 2014a,b). The use of the Darcy term in Eq.…”

Section: Momentum Transfermentioning

confidence: 99%

“…Enthalpy of formation may also appear as a source term in the energy balance equation when considering a single-phase equation only. Enthalpy of reaction can be available experimentally or estimated by thermodynamic database software as demonstrated in (Villafán-Vidales et al, 2011). The temperature dependence of reaction rates is generally handled by assuming an Arrhenius-type law (see Section 3.2): Lipiń ski, 2012, 2011;Haussener et al, 2009;Lipiń ski and Steinfeld, 2004;Müller et al, 2008;Oles and Jackson, 2015;Schunk et al, 2009b;2009a;Villafán-Vidales et al, 2015;Yue and Lipiń ski, 2015a,b,c;Zedtwitz et al, 2007;Zedtwitz and Steinfeld, 2005).…”

Section: Energy Transfermentioning

confidence: 99%

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a b s t r a c tThis article reviews the progress, challenges and opportunities in numerical modelling of thermal transport, thermochemical reactions and thermomechanics in high-temperature solar thermochemical systems. Continuum-scale models are presented in mathematical detail while highlighting the literature that uses them. The discussion is enhanced by selected examples of numerical studies of solar thermochemical systems for solar fuels and commodity material production. Property predictions necessary for the modelling of solar thermochemical reaction systems are covered.

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The present article introduces an automated procedure to construct geometrical representative volume elements (RVE) of open‐foam cellular materials from computerized tomography (CT) images, with the final aim of generating meshable geometries usable in the finite element method (FEM) used in order to analyse their mechanical behavior. The methodology consists in growing and fitting a set of ellipsoids to each of the foam cells. These ellipsoids are seeded by local maxima of the distance to the struts obtained from computer tomography images. This methodology is thus fully voxel‐based and does not depend on any assumption about statistical distributions of the foam cells. Therefore, it is able to reproduce an accurate geometrical model of the foam's microstructure and its possible irregularities. Moreover, this procedure allows the processing of large 3D data sets that do not fit the random access memory (RAM) by slicing it into smaller independent chunks. The effectiveness of the proposed approach is illustrated by comparing it to FEM simulations for which meshes are obtained from a feature reconstruction approach. Both FEM simulations are then compared with experimental results of uniaxial compressions of an open foam.

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Heat transfer simulation in a thermochemical solar reactor based on a volumetric porous receiver

Cited by 108 publications

References 28 publications

Effects of key factors on solar aided methane steam reforming in porous medium thermochemical reactor

Effects of key factors on solar aided methane steam reforming in porous medium thermochemical reactor

Modelling of solar thermochemical reaction systems

Analysis of an open foam generated from computerized tomography scans of physical foam samples

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