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应用Frumkin吸附模型求解液滴的运动 被引量:1
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作者 陈晋南 《应用力学学报》 CAS CSCD 北大核心 1999年第2期6-11,共6页
前人的研究工作大多采用线性吸附模型,没有考虑液滴与表面活性剂之间单饱和与非理想的相互影响。本文采用的非线性Frumkin吸附模型考虑了这些相互作用。与Langmuir非线性吸附模型相比较,Frumkin吸附模型进一步... 前人的研究工作大多采用线性吸附模型,没有考虑液滴与表面活性剂之间单饱和与非理想的相互影响。本文采用的非线性Frumkin吸附模型考虑了这些相互作用。与Langmuir非线性吸附模型相比较,Frumkin吸附模型进一步考虑了在表面饱和情况下,吸附或解吸时表面活性剂之间非理想作用。本文用数值解讨论了这些作用,此作用改变了吸附量、表面张力的灵敏性和吸附-解吸变换的动力。随着粘性比κ的增加,液滴速度增大。液滴的速度大于气泡迁移速度。 展开更多
关键词 小雷诺数流动 液滴 吸附模型 表面活性剂
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An empirical study on vortex-generator insert fitted in tubular heat exchangers with dilute Cu–water nanofluid flow 被引量:3
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作者 M. Khoshvaght-Aliabadi M.H. Akbari F. Hormozi 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2016年第6期728-736,共9页
The heat transfer enhancement(HTE) in tubular heat exchangers fitted with vortex-generator(VG) inserts is experimentally investigated. The studied four parameters and ranges are: winglets-pitch ratio(1.33, 2.67, and 4... The heat transfer enhancement(HTE) in tubular heat exchangers fitted with vortex-generator(VG) inserts is experimentally investigated. The studied four parameters and ranges are: winglets-pitch ratio(1.33, 2.67, and 4),winglets-length ratio(0.33, 0.67, and 1), winglets-width ratio(0.2, 0.4, and 0.6), and Reynolds number(5200to 12200). The testing fluids are the water and Cu–water nanofluid at the volumetric fraction of 0.2%. The results obtained on HTE, pressure drop, and performance evaluation criterion(PEC) are compared with those for water in a smooth tube. It is found that the VG inserts with lower winglets-pitch ratio and higher winglets-length/width ratios present higher values of HTE and pressure drop. Over the range studied, the maximum PEC of 1.83 is detected with the Cu–water nanofluid inside the tube equipped with a VG insert at the winglets-width ratio of0.6 for the maximum Reynolds number, when the heat transfer rate and pressure drop are 1.24 times and 2.03 times of those in the smooth tube. Generalized regression equations of the Nusselt number, friction factor, and PEC are presented for the tubular heat exchangers with the VG inserts for both water and Cu–water nanofluid.It is concluded that the main advantage of the VG inserts is their simple fabrication and considerable performance, particularly at higher Reynolds number. 展开更多
关键词 Heat transfer enhancementVortex-generator insertNanofluid Turbulent flowCorrelation
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