机构地区:[1]华南理工大学机械与汽车工程学院,广州510640
出 处:《农业工程学报》2024年第14期271-280,共10页Transactions of the Chinese Society of Agricultural Engineering
基 金:国家自然科学基金项目(22178118);广东省自然科学基金项目(2019A1515011053)。
摘 要:为研究针状电极与相分离结构强化技术组合作用下微细通道流动沸腾传热性能,该研究提出了一种平行逆流微细通道热沉,针对顺流和逆流微细通道,通过高低压切换实现气相分离。以乙醇为试验工质,改性聚偏二氟乙烯多孔疏液膜(polyvinylidene fluoride,PVDF)作为气液相分离工具,在入口过冷度为10℃,有效热流密度范围为48.08~87.29 kW/m^(2)工况下开展流动沸腾试验,引入饱和沸腾传热系数传热强化因子(Fht)研究不同相分离结构孔数(4孔PSS-1、6孔PSS-2、10孔PSS-3)(phase separation structure,PSS)和不同电场强度(200、400、600 V)组合作用下的微细通道沸腾强化传热特性规律和机理。研究结果表明,在相同工况下,与普通微细通道(无相分离结构0孔PSS-0和无电场)相比,单独相分离结构和单独针状电极作用下微细通道的传热性能均得到有效提高,10孔相分离结构和600 V电场强度分别作用时的最大Fht为1.14和1.20,相分离结构和针状电极组合作用下微细通道传热性能得到进一步提升,10孔和600 V电场强度组合条件下的最大Fht为1.29,结果表明相分离结构和针状电极2种强化技术存在一定的协同效果。研究结果为微尺度复合强化沸腾传热技术提供参考。The purpose of this study is to explore the boiling heat transfer performance of microchannel flow under the combination of two enhanced technologies of pin electrodes and phase separation structure.Therefore,a parallel bidirectional microchannel heat sink was proposed to realize the gas-phase separation by switching high and low pressure for the downstream and countercurrent microchannels.Ethanol was taken as an experimental working fluid,while the modified polyvinylidene fluoride(PVDF)was as a gas-liquid phase separation tool.Then the flow boiling experiment was carried out under the conditions of inlet supercooling at 10℃ and effective heat flux range of 48.08-87.29 kW/m^(2),where other experimental conditions remained the same.Furthermore,the heat transfer enhancement factor of saturated boiling heat transfer coefficient(Fht)was introduced to investigate the boiling heat transfer mechanism in the microchannel under the combination of the number of pores in different phase separation structures(4-hole PSS-1,6-hole PSS-2,10-hole PSS-3)(phase separation structure,PSS)and different electric field strengths(200,400 and 600 V).The results show that the heat transfer performance of the microchannel under the action of the single-phase separation structure and the pin electrodes was effectively improved under the same working conditions,compared with the ordinary microchannel(0 V without electric field and 0-hole PSS-0 without phase separation structure).The number of opening holes shared a strong correlation with the enhanced heat transfer of the phase separation structure.The maximum Fht of the phase separation structure was 1.14 at a heat flux of 80 kW/m^(2),with an increase in the number of opening holes.There was the strengthening effect of the electric field on small or confined bubbles,with small lengths and diameters.An outstanding strengthening was found under the condition of low and medium heat flux,such as the maximum Fht under pin electrodes was 1.20 at a heat flux of 65 kW/m^(2).The heat transfer perf
分 类 号:S126[农业科学—农业基础科学]
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