在al2o3 -水纳米流体存在下,波浪型槽壁对机械搅拌特性的影响

Abderrahim Mokhefi, M. Bouanini, M. Elmir, P. Spitéri
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引用次数: 3

摘要

加强搅拌槽内的传热是工业领域加速某些物理和化学参数的一个迫切需要的目标。在此基础上,本文尝试研究搅拌槽的波浪壁对Al2O3-Water纳米流体的水动力、热性能和能量性能的影响。搅拌槽底部为平底,并装有锚式搅拌器。在槽壁上施加热温度,并且假定搅拌器是绝热的,其中纳米流体在初始时刻具有冷温度。层流由强制对流方程控制,用有限元法求解。数值模拟结果表明,增加波纹壁的振幅和增加纳米颗粒的浓度对搅拌槽内的传热有明显的加速作用。然而,搅拌功率的数量却有了显著的增加。这一贡献旨在提高热效率,特别是在化学和石化领域,以获得某些化学反应的更好收率和取决于热量的传质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of the wavy tank wall on the characteristics of mechanical agitation in the presence of a Al2O3-water nanofluid
The enhancement of the heat transfer in the stirred tank is a much-desired objective for accelerating certain physical and chemical parameters in the industrial field. From this basis, an attempt is made in this paper to investigate the effect of the wavy wall of a stirred tank on the hydrodynamic, thermal, and energetic behavior of an Al2O3-Water nanofluid. The stirred tank has a flat bottom, and it is equipped with an anchor stirrer. A hot temperature has been imposed on the tank wall, and the agitator has been assumed adiabatic, where the nanofluid has a cold temperature at the initial instant. The laminar flow was governed by the equations that describe the forced convection, and it was solved by the finite element method. The numerical simulation results showed a considerable acceleration in the heat transfer inside the stirred tank by increasing the amplitude of the wavy wall and increasing the nanoparticle concentration. However, there has been a remarkable increase in the stirring power number. This contribution aims to increase thermal efficiency, especially in the chemical and petrochemical fields, to obtain a better yield of certain chemical reactions and mass transfer depending on the heat.
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