蛇形换热器在变道数热水器上的应用评价

I Gede Arya Dimas Wisnu Murti Surawardana, M. Sucipta, Hendra Wijaksana
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引用次数: 0

摘要

对一些人来说,使用温水洗澡是第三需要,因为获得温水需要额外的费用。一般来说,人们/工业使用市场上出售的热水器。这些热水器通常使用电力、太阳能或天然气。本研究的目的是评估使用的热回收系统作为热水器在通道数量的变化。本研究是对蛇纹石式换热器的实验研究。对标准分体式空调和带热交换器的分体式空调进行了试验。本研究的自变量为长度为4 m的蛇形换热器类型的变化,每个换热器的高度为20、25和30 cm, 10、12和14通道的变化以及蒸发器输出空气设置16ºC、20ºC和24ºC的变化。利用蒸发器出口空气温度的设定产生不同的制冷效果值。蒸发器输出空气温度设定越低,产生的制冷效果值越低。离开蒸发器的空气温度为24℃,制冷效果值更高。本研究表明,在蒸发器空气设置为16ºC时,加热器性能最佳,变化10次。综上所述,在分体式空调系统中增加蛇形换热器10通道、12通道、14通道以及温度负荷为24°C、20°C和16°C时,蒸发器爆裂对分体式空调系统性能系数的降低有影响。
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Evaluation of Serpentine-Type Heat Exchanger Application on Water Heater with Passages Number Variation
For some people, using warm water for bathing needs is a tertiary need because getting warm water requires additional costs. Generally, people/industry use water heaters that are sold in the market. These water heaters generally use electricity, solar power, or natural gas. This study aimed to evaluate the use of heat recovery systems as water heaters with variations in the number of passages. This research is an experimental study on a serpentine-type heat exchanger. Tests were carried out on standard split air conditioners and split air conditioners integrated with heat exchangers. The independent variables in this study were variations of the heat exchanger type serpentine with a length of 4 m, with each heat exchanger having a height of 20, 25, and 30 cm, with variations of 10, 12, and 14 passages and variations of evaporator output air settings 16ºC, 20ºC and 24ºC. The use of the evaporator outlet air temperature setting produces a different refrigeration effect value. The lower the evaporator output air temperature setting, the lower the resulting refrigeration effect value. The air temperature leaving the evaporator is 24ºC which results in a higher refrigeration effect value. This study showed the best heater performance at the evaporator air setting of 16ºC with a variation of 10 passages. In conclusion, the addition of a heat recovery system with serpentine-type heat exchanger variations 10 passages, 12 passages, 14 passages, and 24°C temperature loading variations, 20°C and 16°C on the evaporator burst will have an impact on decreasing the coefficient of performance on the split air conditioner system.
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