Three-dimensional simulation of rivulet and film flows over an inclined plate: Effects of solvent properties and contact angle

Singh, Rajesh; Galvin, Janine E.; X, Sun

doi:10.1016/j.ces.2015.11.029

Cited by 57 publications

(30 citation statements)

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“…In that, the liquid holdup was computed on the corrugation surface by a gas‐liquid 2D model; the pressure drop was obtained at the element scale by a gas‐phase 3D model; and the gas‐liquid distributions were then studied at the column scale by a porous‐media device‐scale model. An alternative approach is currently being explored which employs VOF‐based CFD simulations at corrugation and element scales to develop the hydrodynamic and mass‐transfer closure models . These closure models can then be applied in the porous‐media device‐scale CFD model to predict drops in pressure, liquid holdup, and CO 2 absorption of the entire device.…”

Section: Discussionmentioning

confidence: 99%

“…An alternative approach is currently being explored which employs VOF-based CFD simulations at corrugation and element scales to develop the hydrodynamic and mass-transfer closure models. [56][57][58] These closure models can then be applied in the porous-media device-scale CFD model to predict drops in pressure, liquid holdup, and CO 2 absorption of the entire device.…”

Section: Discussionmentioning

confidence: 99%

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Device‐scale CFD modeling of gas‐liquid multiphase flow and amine absorption for CO₂capture

et al. 2018

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In this paper we aim to develop a validated device‐scale CFD model that can predict quantitatively both hydrodynamics and CO2 capture efficiency for an amine‐based solvent absorber column with random Pall ring packing. A Eulerian porous‐media approach and a two‐fluid model were employed, in which the momentum and mass transfer equations were closed by literature‐based empirical closure models. We proposed a hierarchical approach for calibrating the parameters in the closure models to make them accurate for the packed column. Specifically, a parameter for momentum transfer in the closure was first calibrated based on data from a single experiment. With this calibrated parameter, a parameter in the closure for mass transfer was next calibrated under a single operating condition. Last, the closure of the wetting area was calibrated for each gas velocity at three different liquid flow rates. For each calibration, cross validations were pursued using the experimental data under operating conditions different from those used for calibrations. This hierarchical approach can be generally applied to develop validated device‐scale CFD models for different absorption columns. © 2018 Society of Chemical Industry and John Wiley & Sons, Ltd.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Device‐scale CFD modeling of gas‐liquid multiphase flow and amine absorption for CO₂capture

et al. 2018

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“…Few related numerical solutions, of a finite or boundary element type, have appeared focusing in particular on the behaviour of the accompanying 2D flow structure within the film [20] and in the case of 3D flow [21][22][23]; other, related investigations, have used a volume of fluid approach to explore pattern formation and mixing in film flow [24], surface wetting [25], together with the evolution of a single rivulet and its breakup [26,27].…”

Section: Introductionmentioning

confidence: 99%

A Potential Field Description for Gravity-Driven Film Flow over Piece-Wise Planar Topography

Scholle

Gaskell

Marner

2019

Fluids

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Models based on a potential field description and corresponding first integral formulation, embodying a reduction of the associated dynamic boundary condition at a free surface to one of a standard Dirichlet-Neumann type, are used to explore the problem of continuous gravity-driven film flow down an inclined piece-wise planar substrate in the absence of inertia. Numerical solutions of the first integral equations are compared with analytical ones from a linearised form of a reduced equation set resulting from application of the long-wave approximation. The results obtained are shown to: (i) be in very close agreement with existing, comparable experimental data and complementary numerical predictions for isolated step-like topography available in the open literature; (ii) exhibit the same qualitative behaviour for a range of Capillary numbers and step heights/depths, becoming quantitively similar when both are small. A novel outcome of the formulation adopted is identification of an analytic criteria enabling a simple classification procedure for specifying the characteristic nature of the free surface disturbance formed; leading subsequently to the generation of a related, practically relevant, characteristic parameter map in terms of the substrate inclination angle and the Capillary number of the associated flow.

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“…Magnetohydrodynamic mixed convective flow and heat transfer over an inclined plate was investigated by Shanmugapriya [28]. Film flow over an inclined plate was numerically investigated by Singh et al [29] using volume of fluid method. Literature survey indicates that there is a lack of information about laminar forced convection heat transfer over an inclined flat plate with an unheated starting length.…”

Section: Introductionmentioning

confidence: 99%

Laminar Forced Convection Over An Inclined Flat Plate With Unheated Starting Length

Turgut¹,

Ozcan²,

Turkoglu³

2018

Journal of Polytechnic

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Bu makaleye şu şekilde atıfta bulunabilirsiniz(To cite to this article): Turgut O., Ozcan A. C. and Turkoglu H., "Laminar forced convection over an inclined flat plate with unheated starting length", Politeknik Dergisi, 22(1): 53-62, (2019).Erişim linki (To link to this article): http://dergipark.gov.tr/politeknik/archive ABSTRACT Two-dimensional laminar forced convection over an inclined flat plate with an unheated starting length was investigated numerically for both constant surface temperature and constant heat flux boundary conditions. The numerical study was implemented using the commercial software ANSYS Fluent 15.0. Air is used as working fluid. The influence of Reynolds number, inclination angle and the length of unheated plate on velocity and temperature distributions, surface temperature, surface heat flux and local Nusselt number was investigated. The results show that Reynolds number, inclination angle and the length of unheated region of plate play important role on heat transfer from the plate. It is seen that Nusselt number increases with increasing Reynolds number and inclination angle of inclined flat plate but decreases with increasing the length of unheated region of plate. ÖZIsıtılmamış başlangıç uzunluğuna sahip bir eğik düz plaka üzerindeki iki boyutlu laminar zorlanmış konveksiyon sabit yüzey sıcaklığı ve sabit yüzey ısı akısı sınır şartları için sayısal olarak incelenmiştir. Sayısal çalışma ANSYS Fluent 15.0 ticari paket programı kullanılarak gerçekleştirilmiştir. Çalışma akışkanı olarak hava kullanılmıştır. Reynolds sayısının, ısıtılmamış plaka uzunluğunun ve plaka eğim açısının hız ve sıcaklık dağılımları, yüzey sıcaklığı, yüzey ısı akısı ve yerel Nusselt sayısı üzerindeki etkisi incelenmiştir. Sonuçlar Reynolds sayısının, plaka eğim açısının ve düz plakanın ısıtılmamış bölge uzunluğunun plakadan olan ısı transferi için önemli olduğunu göstermiştir. Nusselt sayısının artan Reynolds sayısı ve düz plaka eğim açısı ile arttığı, fakat düz plakanın ısıtılmamış bölge uzunluğunun artması ile azaldığı görülmüştür.Anahtar Kelimeler: Laminar akış, zorlanmış konveksiyon, eğik düz plaka, ısıtılmamış uzunluk, numerik analiz

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Three-dimensional simulation of rivulet and film flows over an inclined plate: Effects of solvent properties and contact angle

Cited by 57 publications

References 62 publications

Device‐scale CFD modeling of gas‐liquid multiphase flow and amine absorption for CO₂capture

Device‐scale CFD modeling of gas‐liquid multiphase flow and amine absorption for CO₂capture

A Potential Field Description for Gravity-Driven Film Flow over Piece-Wise Planar Topography

Laminar Forced Convection Over An Inclined Flat Plate With Unheated Starting Length

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Three-dimensional simulation of rivulet and film flows over an inclined plate: Effects of solvent properties and contact angle

Cited by 57 publications

References 62 publications

Device‐scale CFD modeling of gas‐liquid multiphase flow and amine absorption for CO2capture

Device‐scale CFD modeling of gas‐liquid multiphase flow and amine absorption for CO2capture

A Potential Field Description for Gravity-Driven Film Flow over Piece-Wise Planar Topography

Laminar Forced Convection Over An Inclined Flat Plate With Unheated Starting Length

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Product

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Device‐scale CFD modeling of gas‐liquid multiphase flow and amine absorption for CO₂capture

Device‐scale CFD modeling of gas‐liquid multiphase flow and amine absorption for CO₂capture