实际运行表明,蒸发式冷凝器性能较好,具有很好的发展前景及推广价值。
The operation results showed that evaporative condenser had good performance, and its development and application prospects were better.
因此本文设计了蒸发式冷凝器性能测试实验室,通过实验的方法进行研究。
A laboratory is established to do this job in an experimental way in this article.
在蒸发式冷凝器性能测试实验平台基础上,测试了水流参数如喷淋密度和水温对蒸发式冷凝器传热传质性能的影响。
Based on experimental apparatus, how the spray density and water temperature affected the heat and mass transfer performance of the evaporative condenser are studied.
本文在综合考虑传热性能和摩擦阻力等因素的基础上,对单螺旋槽套管式冷凝器的结构进行了优化和研究。
On the base of both consideration of heat transfer performance and resistance, the optimization and research are carried out on single spiral duct double pipe condenser.
实验结果分析表明,适当增大冷凝器面积既可提高机组性能,又可避免在冬季工况时冷凝压力过高,保证机组稳定可靠的运行。
The experimental results show that the purpose of avoiding the high pressure of condensation and operating stably of heat-pump can be achieved if the area of condenser has been increased properly.
试验结果表明,螺纹管冷凝器对双流体循环地热电站具有较高的传热性能。
Results show that the spiral fluted tube condensers have higher heat transfer performance for binary cycle geothermal power station.
实验结果表明,耐腐蚀铜合金高效换热管作为冷凝器时,其传热性能比普通换热管(如光滑管)要高出一倍左右。
The results show that the performance characteristics of anti-rotten efficient cooper alloy tube as a condenser are about two times of those common tubes(such as smooth tubes).
本文在实验测试和数值模拟的基础上研究了溶液再生式蒸发冷凝器对制冷系统性能的影响。
In this paper, there will be research on the performance of refrigeration system on the impact of evaporative condenser with solution based on experimental testing and numerical simulation.
由于混合工质冷凝散热量的增加及传热性能的下降,因此工质M3在冷凝器的出口出现了不完全冷凝现象。
Owning to the degradation of the heat transfer coefficient and large amount of condensation heat rejection, the performance of incomplete condensation of M3 has been found at the condenser outlet.
深入分析空气冷凝器支架结构的结构性能,对其结构体系和典型节点、构件进行试验研究,可为工程设计提供有益建议。
It can be a help for the engineering design to deeply analyze the structure behavior and have an examination research on the typical joints and members in the air-cooled condenser structure system.
深入分析空气冷凝器支架结构的结构性能,对其结构体系和典型节点、构件进行试验研究,可为工程设计提供有益建议。
It can be a help for the engineering design to deeply analyze the structure behavior and have an examination research on the typical joints and members in the air-cooled condenser structure system.
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