| 1. | Adopts the variable - primary - flow two - pipe chilled water system
空调水系统为变流量一次泵两管制系统。 |
| 2. | Fault detection and diagnosis of the temperature sensors in chilled water systems
冷水机组系统的温度传感器故障诊断 |
| 3. | Application of variable primary folw chilled water system in air - conditioning designing of bank
一次变频泵变水流量系统在某银行信息中心空调设计中的应用 |
| 4. | Specification for double regulating globe valves and flow measurement devices for heating and chilled water systems
加热和冷却水系统用双调节球形阀和流量测量装置规范 |
| 5. | The proposals of bigger temperature difference with lower water flow rate and variable primary water flow rate were introduced to reduce the operation cost or primary cost of chilled water system
摘要详细分析了大温差小流量系统方案和一次泵变流量系统方案在空调水系统节能方面的异同。 |
| 6. | Applying network graph theory into the study of vwv system was given in this thesis , and a program simulating the operation of the chilled water system was written according to this method
本文还提出了用网络图论来研究变水量系统的思想,根据此思想编写了可以模拟冷水系统实际运行情况的程序。 |
| 7. | Presents two common heat recovery methods for water cooling chillers . recommends the control scheme by monitoring the return water temperature . presents two design schemes for chilled water systems
摘要介绍了两种常见的水冷冷水机组热回收方式。推荐采用热水回水温度控制方案。介绍了冷水系统的两种设计方案。 |
| 8. | Variable flow chilled water system ( vwv ) is an effective energy - saving measure , which has a smaller size of pipe and equipment than the normal ones for it has considered the dispersing rate of the load in the systems
空调变水量系统是一种有效的节能手段,并且由于它考虑了系统的同时使用率,系统管道及设备将比常规的小。 |
| 9. | From this paper , a new optimized method and its program in the designing chilled water system were presented , and a scheme to convert a constant flow system to variable flow system was also brought forward
通过本文的研究,提出了一种新的空调冷水系统最优化设计方法,并编制了计算软件;提出了将定水量系统改造为变水量系统的方案。 |
| 10. | A general air - conditioning system is calculated , which indicates that the temperature difference must be less than 12 . 8 and 9 . 2 and 10 respectively in cool air distribution system , chilled water system and cooling water system
计算表明,对于常规空调设计参数,大温差送风的送风温差不宜超过12 . 8 ;大温差冷冻水的供回水温差不宜超过9 . 2 ;冷却水大温差技术在冷却水供回水温差小于10时总是适用的。 |
