THE EFFECT OF BEND ANGLE ON THE EVAPORATIVE COOLING OF AIR FLOW THROUGH BENT DUCT

Iraqi Journal for Mechanical and Materials Engineering Pub Date : 2021-12-31 DOI:10.32852/iqjfmme.v21i4.569

Abdul Sattar Jawad Mohammed, Akeel Asie Nazzal

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Abstract

One remediation to output power drop of a gas turbine generating units during hot climates is reducing compressor inlet air temperature using fogging technique incorporating water injection into the airstream. The inlet air ductworks often include a bend or curved duct before the compressor comprising the secondary flow utilized to enhance the mixing between air and water droplets. This study investigates the effect of changing the bend angle on the resultant evaporative cooling of steadily flowing airstream. The experiments were conducted with an average air velocity range from (2.5 to 5 m/s) through (50) cm square duct. The study considered three bend angles of (45°, 90° and 135°) along with three sets of nozzle tilt angles of (- 45o, 0° and 45° ) to the axial flow direction. The results reveal that best evaporative cooling was achieved at a bend angle of (135°) when the water is axially injected, i.e., at (0o) to flow direction. These conditions were obtained at the velocity of (2.5 m/s), giving enough residence time for the injected droplets to evaporate and cool the airstream.

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弯管角度对气流蒸发冷却的影响

在炎热气候下，燃气轮机发电机组输出功率下降的一种补救措施是使用雾化技术降低压缩机入口空气温度，该技术将水注入气流中。入口空气管道通常包括在压缩机之前的弯曲或弯曲管道，压缩机包括用于增强空气和水滴之间的混合的二次流。本研究探讨了改变弯曲角度对稳定流动气流蒸发冷却的影响。实验是在通过（50）cm正方形导管的平均空气速度范围为（2.5至5m/s）的情况下进行的。该研究考虑了三个弯曲角度（45°、90°和135°）以及三组喷嘴相对于轴向流动方向的倾斜角度（-45o、0°和45°）。结果表明，当水轴向注入时，在（135°）的弯曲角处，即与流动方向成（0°）时，实现了最佳的蒸发冷却。这些条件是在（2.5m/s）的速度下获得的，为注入的液滴蒸发和冷却气流提供了足够的停留时间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Iraqi Journal for Mechanical and Materials Engineering

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审稿时长

24 weeks