1、 本科毕业设计 外文文献及译文 文献、资料题目:Cooling Towers 文献、资料来源:HVAC Equipment and Systems 文献、资料发表(出版)日期: 院 (部) : 专 业: 班 级: 姓 名: 学 号: 指导教师: 翻译日期: 外文资料外文资料 Cooling Towers If a chiller is used to provide chilled water for building air conditioning, then the heat energy that is absorbed through that process must be rej
2、ected. The two most common ways to reject thermal energy from the vapor compression process are either directly to the air or through a cooling tower. In a cooling tower, water is recirculated and evaporatively cooled through direct contact heat transfer with the ambient air. This cooled water can t
3、hen be used to absorb and reject the thermal energy from the condenser of the chiller. The most common cooling tower used for HVAC applications is the mechanical draft cooling tower (Figure 4.2.13). The mechanical draft tower uses one or more fans to force air through the tower, a heat transfer medi
4、a or fill that brings the recirculated water into contact with the air, a water basin (sump) to collect the recirculated water, and a water distribution system to ensure even dispersal of the water into the tower fill. Figure 4.2.14 shows the relationship between the recirculating water and air as t
5、hey interact in a counterflow cooling tower. The evaporative cooling process involves simultaneous heat and mass transfer as the water comes into contact with the atmospheric air. Ideally, the water distribution system causes the water to splash or atomize into smaller droplets, increasing the surfa
6、ce area of water available for heat transfer. The approach to the wet-bulb is a commonly used indicator of tower size and performance. It is defined as the temperature difference between the cooling water leaving the tower and the wet-bulb of the air entering the tower. Theoretically, the water being recirculated in a tower could reach the wetbulb temperature, but this does not occur in actual tower operations. - 1 - FIGURE 4.2.14 Air/water temperature relat
