A Feasibility Study of Supersonic Air Flow for Cooling Application

IRA-International Journal of Technology & Engineering Pub Date : 2017-07-10 DOI:10.21013/JTE.ICSESD201717

P. Chavan, Ummid I. Shaikh

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Abstract

The theoretical study of steady, one-dimensional, isentropic, compressible fluid flow suggests that a convergent-divergent passage is required for accelerating a compressible fluid to supersonic velocities. It also reveals that along with pressure, temperature of the compressible fluid continuously decreases along the flow passage. Air is also a compressible fluid which is freely and abundantly available. Keeping these facts in mind the possibility of obtaining supersonic flow with the help of compressed air is first studied theoretically. A convergent divergent nozzle is designed and developed for obtaining supersonic flow of air. An experiment is carried out for various back pressures for verifying supersonic flow and measuring the exit temperature of air. It is observed that supersonic flow can be obtained with minimum back pressure of 1 bar. Exit temperature of air can be varied by changing the back pressure of the nozzle. Temperature drop of air as high as 18.23 0C could be obtained. These factors prove the potential of supersonic air jet as a good and environmentally friendly cooling medium especially for localized cooling applications.

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超音速气流用于冷却的可行性研究

对稳定的、一维的、等熵的、可压缩流体流动的理论研究表明，要使可压缩流体加速到超音速，需要一条收敛-发散通道。随着压力的增加，可压缩流体的温度沿流道不断降低。空气也是一种可压缩的流体，它是自由而丰富的。考虑到这些事实，首先从理论上研究了利用压缩空气获得超声速流动的可能性。为获得超声速气流，设计并研制了一种会聚发散喷管。为了验证超声速流动和测量空气出口温度，进行了不同背压下的实验。观察到，在最小背压为1bar时，可以获得超声速流动。通过改变喷嘴的背压，可以改变空气的出口温度。可获得高达18.23℃的空气降温。这些因素证明了超音速喷气机作为一种良好的环境友好型冷却介质的潜力，特别是在局部冷却应用中。

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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IRA-International Journal of Technology & Engineering

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