椭圆孔扭带传热速率的实验研究

IRA-International Journal of Technology & Engineering Pub Date : 2017-07-10 DOI:10.21013/JTE.ICSESD201711

K. Gawande, A. V. Deshmukh

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引用次数: 2

摘要

在装有矩形扭带嵌件的圆管内，对紊流中水的管侧换热系数、摩擦系数和强化换热效率进行了实验研究。铜管内径26.6 mm，外径30 mm，试验长度900 mm。将5.25扭比的不锈钢矩形剪切扭带插入光滑管。矩形切口深8毫米，宽14毫米。将镍铬合金丝包裹在测试截面上，玻璃纤维包裹在金属丝上，形成均匀的热流条件。用t型热电偶在测试截面的5个不同点测量管的外表面温度。用两个温度计测量体温。在出口部分，将温度计放入混合盒中。雷诺数在10000 ~ 19000之间变化，光滑管的热流密度变化为14 ~ 22kw /m2，带插入管的热流密度变化为23 ~ 40kw /m2。将光滑管的Nusselt数与Gnielinski相关性进行比较，误差在-6% ~ -25%之间，均方根值为20%。在相同雷诺数下，与光滑管相比，矩形切割扭带插入管的努塞尔数提高了2.3 ~ 2.9倍，摩擦系数增加了1.4 ~ 1.8倍。传热强化效率在1.9 ~ 2.3之间，随着雷诺数的增加而增加。

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Experimental Investigation of Heat Transfer Rate Using Twisted Tape with Elliptical Holes

An experimental investigation was carried for measuring tube-side heat transfer coefficient, friction factor, heat transfer enhancement efficiency of water for turbulent flow in a circular tube fitted with rectangular-cut twisted tape insert. A copper tube of 26.6 mm internal diameter and 30 mm outer diameter and 900 mm test length was used. A stainless steel rectangular-cut twisted tape insert of 5.25 twist ratio was inserted into the smooth tube. The rectangular cut had 8 mm depth and 14 mm width. A uniform heat flux condition was created by wrapping nichrome wire around the test section and fiber glass over the wire. Outer surface temperatures of the tube were measured at 5 different points of the test section by T-type thermocouples. Two thermometers were used for measuring the bulk temperatures. At the outlet section the thermometer was placed in a mixing box. The Reynolds numbers were varied in the range 10000-19000 with heat flux variation 14 to 22 kW/m2 for smooth tube, and 23 to 40 kW/m2 for tube with insert. Nusselt numbers obtained from smooth tube were compared with Gnielinski correlation and errors were found to be in the range of -6% to -25% with r.m.s. value of 20%. At comparable Reynolds number, Nusselt numbers in tube with rectangular-cut twisted tape insert were enhanced by 2.3 to 2.9 times at the cost of increase of friction factors by 1.4 to 1.8 times compared to that of smooth tube. Heat transfer enhancement efficiencies were found to be in the range of 1.9 to 2.3 and increased with the increase of Reynolds number.

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IRA-International Journal of Technology & Engineering

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