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微通道分液冷凝器小流量下的传热性能与压降实验研究OA

Experimental Study on Heat Transfer Performance and Pressure Drop of Microchannel Condenser with Liquid Separation

中文摘要英文摘要

制冷剂质量流量为1 g/s以下的低质量流量下分液孔的大小和位置对分液冷凝器的性能有重要影响.对R600a在5种不同微通道分液冷凝器内的传热性能和压降进行了实验研究,对不同制冷剂质量流量、入口空气温度和风量、冷凝压力下5种分液冷凝器的传热性能和压降特性进行分析.根据实验结果,第二隔板开孔分液冷凝器传热性能优于第三隔板开孔分液冷凝器.制冷剂质量流量越大,分液冷凝器制冷剂侧压降减小越明显.制冷剂质量流量为0.60、0.40 g/s时,第二隔板开孔分液冷凝器制冷剂侧压降较未分液冷凝器分别降低21.28%、17.29%.利用综合评价因子PEF对比了不同开孔直径分液冷凝器的性能,分液孔径为1.2 mm的分液冷凝器平均PEF值为1.58,在所有分液冷凝器中最高,综合性能最好.

The size and location of the separating holes at low mass flow rates(<1 g/s)have a significant impact on the performance of condensers with liquid separation.The heat transfer performance and pressure drop of R600a in five microchannel condensers with liquid separation were studied experimentally.Additionally,the heat transfer performance and pressure drop characteristics of the five liquid separation condensers under different refrigerant mass flows,inlet air temperatures and velocities,and condensing pressures were analyzed.According to the experimental results,the heat-exchange performance of the condenser with liquid separation orifice at the second baffle was better than that at the third baffle.As the mass flow rate of the refrigerant increased,the refrigerant-side pressure drop in the liquid separation condenser decreased significantly.When the refrigerant mass flow rate was 0.60 g/s and 0.40 g/s,the refrigerant-side pressure drop of the condenser with liquid separation orifice on the second baffle was 21.28%and 17.29%lower,respectively,than that of the baseline condenser without liquid separation.The performances of the liquid separation condensers with different orifice diameters were compared using the comprehensive evaluation factor PEF.The average PEF value of the liquid separation condenser with an orifice size of 1.2 mm was 1.58.This was the highest among all the liquid separation condensers and yielded the best comprehensive performance.

钱蒲驰;王德昌;宋庆路;周赛;阎志建

青岛大学机电工程学院 青岛 266071青岛大学机电工程学院 青岛 266071青岛大学机电工程学院 青岛 266071青岛大学机电工程学院 青岛 266071海信冰箱有限公司 青岛 266071

通用工业技术

分液冷凝器分液孔径分液隔板位置传热性能压降

liquid separation condenserseparating orifice sizeseparating orifice positionheat transfer performancepressure drop

《制冷学报》 2026 (2)

85-94,10

国家自然科学基金(52106016)资助项目.The project was supported by the National Natural Science Foundation of China(No.52106016).本文受山东省青年科技人才托举工程项目(SDAST2024QTA048)资助.The project was supported by Young Talent of Lifting Engineering for Science and Technology in Shandong,China(No.SDAST2024QTA048).

10.12465/issn.0253-4339.20240920003

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