蒸发式冷凝器工作原理

冷却塔是水与空气直接接触进行热交换的-种设备,它主要由风机电机填料抽水系统塔身水盘组成主要由在风机作用下的温度比较低的空气与填料中的水进行热交换从而达到降低水温的目的。

A它是一种在塔内通过布水系统将热水喷西成水滴或水膜状水在镇料中从上向下流动空气在填料中由下向上或水平方向流动利用水的蒸发及冷空气和热水的热传递带走水中废热的设备。

B横流塔是 指热水从上向下穿过填料，而空气从水平方向流动穿过填料热水和空气的流动方向呈近90%的一种冷却塔。

C逆流塔是指热水从上向下穿过填料,而空” 从下向上流动穿过填料,热水和空气的流动方向呈近乎180的-种冷却塔浮球阀就自动打开补充冷却水。

Being a kind of equipment for heat exchange through direct contact of water and air,the cooing tower is mainlycomposed of draught fan,electrical machine.padding.Pumping-out system.tower body and water pan.and it achieves thepurpose of lowering water temperature through heat exchange of water in the padding and law temperature air under thedraught fan.

B.Transverse flow tower refers to a kind of cooling towerin which hot water passes through the padding from the topdown,the air moves horizontally and passes through the padding,and the movement direction of hot water and air ispresented at approximately 900.

C.Countercurrent tower is a kind of cooling tower.in which hot water passes through the padding from the top downthe air mouse from the bottom lo tap and passes through the padding,and the movement direction of hot water and air ispresented at approximately 180.

逆流冷却塔的工作原理

超低噪音逆流式冷却塔的工作原理为热水经过入侧面入水管进水经过固定喷嘴喷洒到塔内部散水片热水经过散水片均匀布水可确保热水均匀分布到填料中,热水在填料中依靠自身重力缓缓落下,保证热交换充分风机由外置式马达带动抽风使冷空气由底部四面进风穿透散热材这样冷空气和水形成垂直相会,使热水与级冷的空气进行充分的热交换换热效率高，

The working principle of the ultra-low noise counter flow type cooling towers:the hot water goes by the sideways andqoes into tube.Then through fixed nozzle,it sprays the internal towerThe hot water goes through water diffusion piece tomake the uniformity of water-distribution and the hot water will be distributed evenly into the tirerIhe hot water fllingslowly with its own gravity and sfficient heat exchange will be guaranteed.The exhaust tan Is driven by the external typemotor to make the cold air ao through heat dissipation material from all directions.So the cold air and the water can Tormvertical meets.As a result,.the hot water can exchange with the coldest air to ensure high-efficiency heat energy exchange