共查询到20条相似文献,搜索用时 109 毫秒
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螺旋折流片换热器壳侧传热与流动的数值模拟 总被引:9,自引:1,他引:8
提出了一种强化管壳式换热器壳侧传热的螺旋折流片式换热器新方案,该方案在部分管子上套上螺旋折流片,不仅强化传热,而且对相邻管子形成支撑;利用FLUENT流体计算软件对同心套管螺旋折流片式换热段的壳侧流场、温度场进行了数值模拟,并讨论了螺旋角对其强化传热和阻力性能的影响。结果显示螺旋折流片诱导的涡旋流动对于减薄边界层,促进近壁流体与主流区流体的动量和质量交换进而强化传热有明显的作用,传热系数可比光管提高约40%-100%,但其流动阻力也将增大。 相似文献
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对倾斜角为20°、24°、28°和32°的单头以及32°的双头周向重叠三分螺旋折流板换热器和弓形折流板换热器的传热和压降性能进行了测试,换热器采用公共壳体和可更换管芯结构。采用壳侧轴向雷诺数和轴向欧拉数分别作为反映壳侧流量和阻力系数的无因次参数。试验结果显示在试验范围内周向重叠三分螺旋折流板换热器壳侧换热系数、壳侧压降和综合性能指标都随着倾斜角增大而减小;倾斜角20°方案的性能指标最佳,其平均壳侧努塞尔数和轴向欧拉数与弓形折流板方案的数值之比分别为1.123和0.45;双头螺旋折流板方案的换热系数和压降都大于同样倾斜角的单头螺旋折流板方案,但两者的综合性能较接近。 相似文献
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This study presents new data on nucleate boiling heat transfer obtained in compact horizontal tube bundles with small tube gaps. The experiment investigates the heat transfer enhancement effects by the restricted spaces comprising the compact tube bundles and the enhanced heat transfer tubes for nucleate boiling heat transfer of R-11 at atmospheric pressure. A roll-worked tube was used as a new type of enhanced heat transfer tube. The experimental results show that the small tube gaps can greatly enhance boiling heat transfer in a smooth tube bundle, while enhancement effects of small gaps were not quite significant for the enhanced tube bundle. There is a compound effect from the enhanced surface and the restricted space only for the enhanced tube bundle with the tube gap of 0.5 mm. The effects of the tube positions within both compact tube bundles on the boiling heat transfer were minor. 相似文献
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高效传热管内凝结换热性能及阻力性能的实验研究 总被引:1,自引:0,他引:1
本文以HFC134a和HCFC22为工质对光管及两种不同槽型的强化传热管(DAE-2管与DAEC管)的水平管内凝结换热进行了对比实验研究、研究发现,DAE-2管平均换热系数比光管提高了140%~170%,而单位长度阻力损失增加了50%~100%,DAEC管平均换热系数比光管提高了160%~200%,同时单位长度阻力损失增加了70%~130%。此外,本文给出了DAE-2管和DAEC管平均换热系数及阻力损失的计算关联式,可用于冷凝器设计。 相似文献
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A steady state thermodynamic model for an air—cooled finned—tube condenser, used in a typical deep freezer vapour compression
system, operating with pure and refrigerant mixtures has been developed using finite difference method. The heat transfer
aspects in the condenser are treated uniquely for superheated, two—phase and subcooled regimes and studied for various heat
load, pressure, temperature, and mass flow rate. The condensation heat transfer coefficient, the tube length required for
condensation, the degree of subcooling, and the temperature glide for different ambient temperatures are estimated. The simulation
and the experimental results are in good agreement. 相似文献
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