Discrete vs. continuum-scale simulation of radiative transfer in semitransparent two-phase media

Petrasch, Joerg; Haussener, Sophia; Lipiński, Wojciech

doi:10.1016/j.jqsrt.2011.01.025

Cited by 58 publications

(11 citation statements)

References 23 publications

(33 reference statements)

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“…Other approaches to the modeling of radiant fields in heterogeneous photocatalytic reactors deal with stochastic models, which are based on Monte Carlo simulation [37][38][39], or with the application of Computational Fluid Dynamics (CFD) [21,[40][41][42][43]. The latter based on the constitutive equations of continuous-medium mechanics.…”

Section: Introductionmentioning

confidence: 99%

Effective radiation field model to scattering – Absorption applied in heterogeneous photocatalytic reactors

Mueses

Martínez

Hernández‐Ramírez

et al. 2015

Chemical Engineering Journal

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Abstract:A new mathematical model for the calculation of the radiation field in heterogeneous photocatalytic reactors using the new concept of "Effective radiation field model" or ERFM is proposed. In this concept, the incident radiation associated to the photons flow is an energy cloud. The generated space-phase and the properties of the cloud are considered to be isotropic and independent of the propagation angle and photon frequency. The isotropic nature of the ERFM concept provides a simpler estimation of the radiation field of a photocatalyst suspension (particles and fluid) for polychromatic radiation spectra such as the solar spectrum.The ERFM is an alternative for the calculus of the spatial distribution of the radiant energy in heterogeneous photocatalytic reactors as an extension of the concept associated to the overall volumetric rate photon absorption -OVRPA. The local volumetric rate of photon absorption (LVRPA) predicted by the ERFM were compared with the predictons from the Six Flux Model (SFM) and the rigorous solution of the radiative transfer equation (RTE).The LVRPA calculated with the ERFM was found to be closer to the solution of the RTE by the Discrete Ordinate Method (DOM). This was attributed to the isotropic phase function which was adopted in both models (ERFM and RTE-DOM).

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Section: Introductionmentioning

confidence: 99%

Effective radiation field model to scattering – Absorption applied in heterogeneous photocatalytic reactors

Mueses

Martínez

Hernández‐Ramírez

et al. 2015

Chemical Engineering Journal

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“…Ultimately, a set of homogenised equations governing momentum, energy, and mass transfer are obtained that can be solved at the reactor scale. A formal homogenisation of the radiative transfer equation for its solution in multi-component media was only recently put on a solid footing by use of volume averaging theory (Lipiń ski et al, 2010a,b;Petrasch et al, 2011) although its use in reactor modelling is yet to appear. Homogenised equations require auxiliary closure relations in order to solve them.…”

Section: Continuum Modelling Of Thermochemical Transportmentioning

confidence: 99%

Modelling of solar thermochemical reaction systems

et al. 2017

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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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“…Equation (5) states that the relative proportion of photon bundles from the ith cell is proportional to the relative emission from the cell. The sum of the number of photon bundles emitted by each phase, N g,i and N s,m,i , must satisfy, on a cell basis…”

Section: Overview and Assumptions Of Pmc/lbl Energy Splitting Approachmentioning

confidence: 99%

“…Despite the great importance of thermal radiation in such combustion systems, the quality of radiation models employed is generally inadequate, being either absent altogether or limited to trivial T 4 relationships. Several multi-RTE approaches have been derived and applied to study heterogeneous gas-solid systems including gas-saturated particulate media [2][3][4][5]. Basically, there are two approaches: (1) a single average intensity field in a two-phase medium is assumed with appropriate terms representing different phases in the single RTE and (2) the average intensity field is decomposed into average intensities associated with individual phases, and there is one RTE per phase.…”

Section: Introductionmentioning

confidence: 99%

Spectral Photon Monte Carlo With Energy Splitting Across Phases for Gas–Particle Mixtures

Marquez

Modest

Cai

2015

Journal of Heat Transfer

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In multiphase modeling of fluidized beds, pulverized coal combustors, spray combustors, etc., where different temperatures for gas and solid phases are considered, the governing equations result in separate energy equations for each phase. For high-temperature applications, where radiation is a significant mode of heat transfer, accurately predicting the radiative source terms across each individual phase is an essential task. A spectral photon Monte Carlo (PMC) method is presented here with detailed description of the implementation features, including the spectral treatment of solid particles, random number correlations, and a scheme to split emission and absorption across phases. Numerical results from the PMC method are verified against direct numerical integration of the radiative transfer equation (RTE), for example, problems including a cylindrically enclosed homogeneous gas-particulate medium and a simple fluidized bed example. The PMC method is then demonstrated on a snapshot of a pulverized-coal combustion simulation.

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Discrete vs. continuum-scale simulation of radiative transfer in semitransparent two-phase media

Cited by 58 publications

References 23 publications

Effective radiation field model to scattering – Absorption applied in heterogeneous photocatalytic reactors

Effective radiation field model to scattering – Absorption applied in heterogeneous photocatalytic reactors

Modelling of solar thermochemical reaction systems

Spectral Photon Monte Carlo With Energy Splitting Across Phases for Gas–Particle Mixtures

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