Flow boiling heat transfer characteristics of CO2 with and without oil were investigated experimentally in horizontal smooth and enhanced tubes with an inner diameter of 11.2 mm. The visualization of flow pattern was also performed to provide the detailed attributes of the nucleate and the convective boiling heat transfer. In order to investigate the effect of the miscible oil on the heat transfer of CO2, POE (polyolester) RENSIO C85E oil is added to give an oil circulation rate (OCR) between 0.5 % and 2 %. Results are compared with those of pure CO2. The experimental conditions include evaporation temperatures of -15 °C, mass fluxes from 40 to 200 kg/m2 s, heat fluxes from 0.5 to 10 kW/m2, and vapor qualities from 0.1 to 0.8. Oil generally deteriorates the heat transfer coefficient of pure CO2. The reduction in heat transfer coefficient is most apparent at low vapor qualities, 0.1 to 0.4, and at low mass fluxes, 100 and 200 kg/m2. It is caused by the suppression of nucleate boiling due to increased surface tension. At conditions where the convective boiling contribution is dominant, vapor qualities above 0.5, oil increases heat transfer coefficients. Through visualization, it is shown that the wetted area on the perimeter of inner tube is enhanced due to formation of foaming in the smooth tube. However, such enhancement of heat transfer due to forming is negligible in the enhanced tube, because the enhanced factor due to micro-finned structures is dominant.
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机译:在内径为11.2 mm的水平光滑管和增强管中,实验研究了有油和无油下CO2的流沸腾传热特性。还进行了流动模式的可视化,以提供核形和对流沸腾传热的详细属性。为了研究混溶油对CO2传热的影响,添加了POE(多酯)RENSIO C85E油,使油循环率(OCR)在0.5%至2%之间。将结果与纯二氧化碳的结果进行比较。实验条件包括-15°C的蒸发温度,40至200 kg / m2 s的质量通量,0.5至10 kW / m2的热通量和0.1至0.8的蒸气质量。油通常会降低纯二氧化碳的传热系数。在低蒸汽质量(0.1到0.4)以及低质量通量(100和200 kg / m2)下,传热系数的降低最为明显。其原因是由于表面张力增加而抑制了核沸腾。在对流沸腾占主导地位的条件下,蒸气质量高于0.5时,油会增加传热系数。通过可视化显示,由于在光滑管中形成泡沫,因此增加了内管周边的润湿区域。然而,由于形成的传热的这种增强在增强的管中可忽略不计,因为由微翅片结构引起的增强的因素是主要的。
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