将上述技术集成,形成一套新的高温凝结水回收系统。
All of these technology above make the new new high-temperature condensate recovery system.
过冷度小,背压率高。在加热设备和凝结水回收系统工程上使用,更显其优越性能。
Low undercooling degree, the rate high back press. On the heating equipments with condensed water and the recovery system engineering, even show its ascendant function.
在介绍凝结水回收系统的回收方式和目前国内外常用的回收设备的基础上,对如何选择回收系统和设备作了详细的讨论。
Detailed discussion on the selection of recovery system and equipments are presented based on introduction to condensed water recovery methods and some common recovery equipments used worldwide.
指出蒸气凝结水回收的重要性的同时对炼油厂蒸气凝结水回收系统中存在的诸如水击、非凝结性气体不能排除、气阻及疏水阀的选型安装等问题的解决办法进行了探讨。
The solution of problems such as water hammer, hard to dispose the noncondensables, air lock and selection of steam trap were discussed to save energy, protect environment and lower the cost.
探讨了蒸汽管道的敷设和补偿,蒸汽系统的排气和疏水,凝结水的回收。
Installation and compensation of steam pipeline, vent and condensate drain-off of steam system, recovery of condensate are discussed.
对凝结水及乏汽回收系统改造进行阐述,在改造过程中对原系统存在的问题进行分析,并提出相应的改造措施。
Demonstrates the revamp to condensate and dead steam recovery system. Problems existed in the original system were analyzed during the revamp, and relative revamping measures were proposed.
对凝结水及乏汽回收系统改造进行阐述,在改造过程中对原系统存在的问题进行分析,并提出相应的改造措施。
Demonstrates the revamp to condensate and dead steam recovery system. Problems existed in the original system were analyzed during the revamp, and relative revamping measures were proposed.
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