Effect of Flow Structure on Air-Water Mixing Process at Different Bend Angles

Akeel Nazzal, Abdulsattar J. Hasan
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Abstract

—The secondary flow generated within curved ducts accompanies a substantial change in flow structure due to the imbalance between centrifugal forces and transverse pressure gradient. The current study investigates the effect of changing bend angle on the evaporative cooling of an airstream via spray of water in fogging mode. The experimental Particle image velocimetry (PIV) technique has been implemented for visualizing the secondary flow layout when an air-water mixture travels through the bend duct. The bend angles considered are (45 o , 90 o and 135 o ) at velocities of (5, 3.75 and 2.5 m/s) for air flow through 50 cm square duct. PIV results manifested that a single pair of counter rotating vortices appears at 45 o bend angle, while the other two bend angles evinced two pairs of vortices (four-cell pattern) across the duct cross-section. The water spray was set to tilt at three orientations, namely (45 o , 0 o and – 45 o ) to the axial flow direction to suit the change in bend angle. ANSYS FLUENT 19.R1is used in numerical simulation with RNG-k-ε turbulent model to study the spray characteristics which impacts the cooling process. The best cooling of the airstream is obtained when the water is sprayed axially, i.e. at 0 o , prior to the 135 o bent duct ranking 30% reduction in temperature corresponding to 6.5% improvement in heat transfer between the two phases.
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不同弯角下流动结构对气水混合过程的影响
-由于离心力和横向压力梯度的不平衡,弯曲管道内产生的二次流伴随着流动结构的实质性变化。本文研究了在喷雾模式下,改变弯曲角度对气流蒸发冷却的影响。采用实验粒子图像测速(PIV)技术实现了空气-水混合物通过弯管时二次流分布的可视化。考虑的弯曲角度为(45度,90度和135度),速度为(5,3.75和2.5米/秒),空气流过50平方厘米的管道。PIV结果表明,在45°弯曲角处出现一对对旋涡,而在另外两个弯曲角处则出现两对对旋涡(四室型)。设置水雾向轴向(45度、0度和- 45度)三个方向倾斜,以适应弯曲角度的变化。Ansys fluent 19。采用RNG-k-ε湍流模型对r1进行数值模拟,研究影响冷却过程的喷雾特性。当水沿轴向喷射时,即在0°,即在135°弯曲管道之前,气流的冷却效果最好,该管道的温度降低了30%,对应于两相之间的传热提高了6.5%。
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CiteScore
2.80
自引率
0.00%
发文量
25
期刊介绍: International Journal of Mechanical Engineering and Robotics Research. IJMERR is a scholarly peer-reviewed international scientific journal published bimonthly, focusing on theories, systems, methods, algorithms and applications in mechanical engineering and robotics. It provides a high profile, leading edge forum for academic researchers, industrial professionals, engineers, consultants, managers, educators and policy makers working in the field to contribute and disseminate innovative new work on Mechanical Engineering and Robotics Research.
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