为管式间接蒸发冷却器的设计、优化和推广应用奠定了基础。
It establishes the basis for the design, optimization and application of tube type indirect evaporative cooler.
介绍了现有的几种管式间接蒸发冷却器数学模型,并加以比较。
Several mathematical models of tube type indirect evaporative coolers are introduced and compared.
结果表明基于湿空气分析理论的评价方法更合理,为间接蒸发冷却器设计提供依据。
Results show that the evaluating method based on exergy analysis theory of moist air is more reasonable, and provide the evidence for the design of an indirect evaporative cooler.
根据间接蒸发冷却过程的热力学特性,定义了间接蒸发冷却器的火用效率计算公式。
The exergy efficiency of indirect evaporative cooler is defined based on analyzing the thermodynamic performance of heat and mass transfer process.
目前,在间接蒸发冷却器的研究和应用过程中,取得了许多有效的成果,但也存在许多急需解决的问题。
Nowadays, though we have achieved lots of useful and helpful outcomes in the course of studies and applications of evaporative cooler, there are still many issues, which need to be solved.
最后提出多孔陶瓷间接蒸发冷却器与直接蒸发冷却器复合的二级蒸发冷却系统,其冷却效果更逼近露点。
Finally, the effect of the two-stage evaporative cooling system was present, which are both made of porous ceramic material will be more possible to access to the dew point.
本文结合间接蒸发冷却技术和强化传热技术,分析了几种增强管式间接蒸发冷却器传热的行之有效的方法。
Based on indirect evaporative cooling and heat transfer enhancement technology, several effective methods of enhancement of heat transfer of TIEC were researched intensively.
本文结合间接蒸发冷却技术和强化传热技术,分析了几种增强管式间接蒸发冷却器传热的行之有效的方法。
Based on indirect evaporative cooling and heat transfer enhancement technology, several effective methods of enhancement of heat transfer of TIEC were researched intensively.
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