应用纳米添加剂的冰箱性能实验研究  被引量:4

Experiment Study on Performance of Refrigerator Using Nano-Particle Additive

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作  者:傅烈虎[1] 王瑞祥[1] 丛伟[1] 李青冬[1] 吴业正[1] 

机构地区:[1]西安交通大学能源与动力工程学院,西安710049

出  处:《西安交通大学学报》2008年第7期852-854,共3页Journal of Xi'an Jiaotong University

基  金:北京市高等学校人才强教计划资助项目(PHR(IHLB);北京市自然科学基金资助项目(2042008)

摘  要:对HFC134a/HC600a/矿物油/纳米添加剂体系应用于冰箱的性能进行了实验研究和分析.首先,测定了应用HFC134a/HC600a/矿物油体系的冰箱在不同的充灌量条件下压缩机的吸、排气温度,蒸发温度,压缩机机壳温度,冷却速度,耗电量等指标.然后,在体系中添加了Fe3O4纳米添加剂后进行同样实验.实验结果表明:冰箱的冷却速度和耗电量均有一个最佳值;最大冷却速度和最小耗电量分别对应的制冷剂最佳充灌量不是同一个值;在相同条件下,添加纳米粒子后,压缩机机壳的温度约下降2.2℃,吸气温度变化不大,排气温度约降低3.5℃,蒸发器平均温度约降低0.3℃,冷却时间约缩短148 s,同时耗电量略有减小,说明纳米粒子在强化传热和改善润滑性能等方面发挥了作用.An experimental study was conducted on the performances of a refrigerator using the mixture of HFC134a/HC600a, mineral oil and nano-particles of Fe3O4. The cooling speed and the power consumption of the refrigerator, the temperatures at the different selected points in the refrigerator were measured under the different charging amount, with and without adding nano-partitles in the system. The experimental results show that there was an optimal cooling speed and an optimal power consumption of the refrigerator but their corresponding charging amounts were different. With nano-particles under the same conditions, the refrigerator performance rose. The temperature of the compressor shell decreased by 2. 2 ℃ while the suction temperature changed slightly. Moreover, the discharge temperature decreased by 3. 5 ℃ and the average evaporator temperature decreased by 0. 3℃. The cooling time decreased by 148 seconds and the power consumption decreased slightly. It seems that the nano-particles may be effective to enhance the heat transfer of the refrigerant and improving the property of the mineral oil.

关 键 词:纳米添加剂 冰箱 冷却速度 耗电量 

分 类 号:TB651[一般工业技术—制冷工程]

 

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