Numerical hybrid thermal MRT-LBM for condensation and boiling phenomena on horizontal walls of different wettability

IF 1.3 4区 工程技术 Q3 MECHANICS Fluid Dynamics Research Pub Date : 2022-03-11 DOI:10.1088/1873-7005/ac5d1e
S. Channouf, M. Jami, A. Mezrhab
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引用次数: 3

Abstract

In this paper, boiling and condensation phenomena are described on walls with mixed wettability using a hybrid thermal model with multiple relaxation times of the Boltzmann lattice type. We start this study by validating our code. To do so, different simulations are performed namely the spreading of a liquid droplet on an adjustable wettability surface by varying its density, the surface tension for different temperatures around the critical point using Laplace’s law which is used to compute the characteristic parameters (Taylor wavelength λd , characteristic length l0 and characteristic time t0 ), the evaporation of a liquid droplet is evaluated in compraison with the literature work for constant thermal conductivity values. Subsequently, the power law is verified by processing the growth of a liquid droplet for three different cases of wettability. On the other hand, we study the behavior of condensation and boiling processes and their interactions between the boundaries of the solid surface in which they occur. For this purpose, the cavity walls are considered wetting in some areas and non-wetting in others. The results show different behaviors depending on the zones of the walls.
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不同润湿性水平壁面上凝结和沸腾现象的数值混合热MRT-LBM
本文采用具有玻尔兹曼晶格型多重弛豫时间的混合热模型描述了混合润湿性壁上的沸腾和冷凝现象。我们通过验证我们的代码开始这项研究。为此,进行了不同的模拟,即通过改变其密度在可调润湿性表面上的液滴扩散,使用拉普拉斯定律计算临界点周围不同温度下的表面张力,该定律用于计算特征参数(泰勒波长λd,特征长度10和特征时间t0),对液滴的蒸发进行了评估,并与恒定导热系数的文献工作进行了比较。随后,通过处理液滴在三种不同润湿性情况下的生长来验证幂律。另一方面,我们研究了凝结和沸腾过程的行为以及它们发生的固体表面边界之间的相互作用。为此,空腔壁在某些区域被认为是湿润的,而在其他区域被认为是非湿润的。结果表明,不同的墙体区域具有不同的行为。
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来源期刊
Fluid Dynamics Research
Fluid Dynamics Research 物理-力学
CiteScore
2.90
自引率
6.70%
发文量
37
审稿时长
5 months
期刊介绍: Fluid Dynamics Research publishes original and creative works in all fields of fluid dynamics. The scope includes theoretical, numerical and experimental studies that contribute to the fundamental understanding and/or application of fluid phenomena.
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