共查询到18条相似文献,搜索用时 171 毫秒
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ZrO2纳米流体的对流换热系数测定及机理浅析 总被引:3,自引:0,他引:3
建立了测量圆管内纳米流体流动与传热性能的实验系统,测量了不同粒子浓度的ZrO2/水纳米流体在雷诺数为3 000~18 000范围内的管内对流换热系数以及不同位置处纳米流体对流换热系数的变化情况.实验结果显示,在液体中添加纳米粒子显著增大了液体的管内对流换热系数,例如,在相同雷诺数时,与纯水相比,如果纳米粒子的质量浓度从1.6%增大到4.1%,则纳米流体的对流换热系数增加的比例从1.09增大到1.2.此外,从颗粒的浓度、粒径两方面分析纳米流体强化传热的机理. 相似文献
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纳米流体对流换热的实验研究 总被引:15,自引:3,他引:12
建立了测量纳米流体对流换热系数的实验系统,测量了不同粒子体积份额的水-Cu纳米流体在层流与湍流状态下的管内对流换热系数,实验结果表明,在液体中添加纳米粒子增大了液体的管内对流换热系数,粒子的体积份额是影响纳米流体对流换热系数的因素之一。综合考虑影响纳米流体对流换热的多种因素,提出了计算纳米流体对流换热系数的关联式。 相似文献
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采用数值模拟方法对室外微通道换热器翅片侧空气流动换热性能进行仿真计算, 探讨了在制冷工况下,不同百叶窗结构对微通道换热器空气侧传热及流动特性的影响. 结果表明j 因子的模拟结果与实验关联式之间的平均偏差在7.8% 以内,f 因子的平均误差在7.35 % 以内, 符合工程应用要求. 雷诺数较低时, 传热因子j 和阻力因子f 都随Fp 的增大而减小, 雷诺数较高时,Fp 对两者的影响不明显; 随着开窗角度增加换热器换热系数会呈现先增加后减小的趋势, 同时压降会随开窗角度的增大而有所升高. 相似文献
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为探究磁场强度和肋片高度对微通道内Fe3O4-H2O纳米磁流体流动换热性能的影响,采用数值模拟的方法,以开放式间断微通道热沉为研究对象,在雷诺数为200到500之间展开数值模拟研究,模拟微通道内流体工质流动换热过程。结果表明:进出口压降随雷诺数的增大而增大,且随着磁场强度的增大,压降的增大趋势愈显著;微通道的换热性能随着磁场强度的增大,呈现出先增大后减小的趋势;通过增加肋片高度,可以有效的提高热沉的传热性能。研究发现,开放型微通道综合换热性能优于封闭型,在所研究的参数范围内,微通道肋片高度达到0.9 mm时,综合换热性能和均温性最佳。 相似文献
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This study reports an experimental investigation of evaporative heat transfer and pressure drop of R-134a flowing downward inside vertical corrugated tubes with different corrugation pitches. The double tube test section is 0.5 m long with refrigerant flowing in the inner tube and hot water flowing in the annulus. The inner tubes are comprised of one smooth tube and three corrugated tubes with different corrugation pitches of 6.35, 8.46, and 12.7 mm. The test runs are performed at evaporating temperatures of 10°C, 15°C, and 20°C; heat fluxes of 20, 25, and 30 kW/m2; and mass fluxes of 200, 300, and 400 kg/m2s. The experimental data obtained from the smooth tube are plotted with flow pattern map for vertical flow. Comparisons between smooth and corrugated tubes on the heat transfer and pressure drop are also discussed. It is observed that the heat transfer coefficient and frictional pressure drop obtained from the corrugated tubes are higher than those from the smooth tube. Furthermore, the heat transfer coefficient and frictional pressure drop increase as the corrugation pitch decreases. The maximum heat transfer enhancement factor and penalty factor are up to 1.22 and 4.0, respectively. 相似文献
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为评估格芯夹层结构的传热性能以及代替传统的板式肋片结构应用于汽车散热系统中的可能性,文章对几种典型的格芯夹层结构(如kagome lattice,tetrahedral lattice和pyramidal lattice)和板式肋片(corrugated plate)结构实施了一系列的三维数值计算评估.通过对比相同Reynolds数下的传热系数和相同泵功率下的局部Nusselt数来评估各组结构的传热性能.结果显示,相同Reynolds数条件下,各组格芯夹层结构的传热系数较板式肋片结构均有提高,同时摩擦阻力也大幅度增大.在相同泵功率条件下,由于板式肋片结构所受形阻基本可以忽略,因此在较低泵功率范围内(< 1 500 W),板式肋片的局部Nusselt数最大.随着泵功率的增长,当泵功率提高到3 000 W,tetrahedral的Nusselt数与板式肋片持平并进一步增大,显示出了格芯夹层结构的应用潜力.高传热性能而低摩擦阻力的格芯夹层结构完全有潜力代替传统的板式肋片结构应用于新型高效紧凑的散热系统中. 相似文献
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This study aimed at exploring influence of T-semi attached rib on the turbulent flow and heat transfer parameters of a silver-water nanofluid with different volume fractions in a three-dimensional trapezoidal microchannel. For this purpose, convection heat transfer of the silver-water nanofluid in a ribbed microchannel was numerically studied under a constant heat flux on upper and lower walls as well as isolated side walls. Calculations were done for a range of Reynolds numbers between 10,000 and 16,000, and in four different sorts of serrations with proportion of rib width to hole of serration width (R/W). The results of this research are presented as the coefficient of friction, Nusselt number, heat transfer coefficient and thermal efficiency, four different R/W microchannels. The results of numerical modeling showed that the fluid's convection heat transfer coefficient is increased as the Reynolds number and volume fraction of solid nanoparticle are increased. For R/W=0.5, it was also maximum for all the volume fractions of nanoparticle and different Reynolds numbers in comparison to other similar R/W situations. That's while friction coefficient, pressure drop and pumping power is maximum for serration with R/W=0 compared to other serration ratios which lead to decreased fluid-heat transfer performance. 相似文献
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A new w-type spirally fluted tube with enhanced heat transfer characteristics was developed and manufactured. The heat transfer and pressure drop characteristics of tubes with various geometric parameters were measured over a range of Reynolds numbers from 8,000 to 30,000 for water flowing horizontally through the tube with steam condensing on the outside surface. Experimental correlations for the pressure drop and the heat transfer coefficient were developed from a large amount of data using multivariable linear regression analysis. Factors influencing the heat transfer and flow were analyzed. The experiments showed that heat transfer coefficient can be increased by 3–8% with the pressure drop reduced by 5–10% compared with an ordinary spirally fluted tube. 相似文献
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An experimental study was performed to determine the heat transfer characteristics of a premixed butane/air round flame jet, of low Reynolds number, impinging upwards normally on a flat rectangular plate. The effects of the exit Reynolds number and equivalence ratio of the flame jet, and the distance between the nozzle and the impingement plate, on the thermal performance of the jet were examined. The range of Reynolds numbers was selected to cover the laminar to the transitional flow conditions. The investigations were conducted with equivalence ratios corresponding to the fuel-rich, stoichiometric, and fuel-lean conditions. The nozzle-plate distance was varied from 1d to 8d. Within the range of Reynolds numbers investigated, the highest Nusselt numbers were obtained at the equivalence ratio of φ = 0.85 when the nozzle-plate distance was maintained at 5d. At the stoichiometric condition, the highest Nusselt number was obtained at the nozzle- plate distance of 6d. Nondimensional correlations were obtained from the experimental results and presented to predict the maximum Nusselt number and average Nusselt number for laminar flame jets as a function of the nozzle-plate distance, Reynolds number, and equivalence ratio. 相似文献