TAE Evaporative Condenser
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隐藏域元素占位
- Product Description
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Evaporative condensers can be used in various cooling systems. Depending on the refrigerant and heat rejection, corresponding models of evaporative condensers can be selected. The difference between evaporative condensers and air-cooled equipment is that the working fluid undergoes a phase change, and the condensation temperature is lower, which can reduce energy consumption by 30%.
The TAE evaporative condenser features air and spray water flowing in reverse directions while uniformly passing over the heat exchanger coils, maximizing heat exchange efficiency, resulting in a compact design and smaller tower body.
▍Operating Principle
● Internal Circulation
The hot (gaseous) refrigerant flows from the top into the heat exchanger coils, while the spray water outside the coils flows in reverse with the air, exchanging heat with the refrigerant inside the coils. The liquid refrigerant after condensation is pumped back to the heat source by the system circulation pump.
● External Circulation
The spray water is pumped from the lower water basin to the upper water distribution pipe, where it contacts the condensing coils and the dry cold air entering from below for heat exchange. A small portion of the spray water evaporates to carry away heat, and then the spray water falls back into the lower water basin for recirculation.
▍Performance Characteristics
● Low Energy Consumption
The induced draft counterflow evaporative condenser allows for lower condensation temperatures, and the fan consumes less energy than centrifugal fans, minimizing the total power consumption of the entire system.
● Low Refrigerant Consumption
The unique design of the heat exchanger coils, with air and water flowing in reverse outside the coils, achieves optimal heat exchange efficiency. Additionally, the refrigerant consumption is low, avoiding the high condensation pressure of shell-and-tube condensers in summer, which leads to the release of non-condensable gases using the "venting and depressurizing" method, resulting in refrigerant waste and environmental pollution.
● Simple Operation and Maintenance
Upper maintenance passage: The hinged maintenance door at the top of the tower provides an easy access passage for maintenance personnel to perform maintenance work at the top of the tower, making daily bearing lubrication and maintenance of drive components and water distribution systems more convenient.
Cooling water basin maintenance: The easily removable air intake grille facilitates the cleaning of the water basin, and the maintenance of components such as tensioning devices and float devices is more convenient. The unit is equipped with a motor hoist, maintenance platform, and safety ladder, making it easier for maintenance personnel to perform on-site repairs.
● Small Footprint
The induced draft counterflow evaporative condenser has a compact structure and small tower volume, resulting in a small footprint, reduced steel plate usage, relatively light weight, and less requirement for steel supports.
● Convenient On-Site Installation
The TAE induced draft counterflow evaporative condenser is processed and assembled in the factory, then transported in two parts: the fan-coil and the water basin, for on-site installation at the usage location, avoiding the inconvenience of transporting the entire tower, ensuring quality, and saving time and labor costs.
● Long Operating Life
The tower body structure is made of various corrosion-resistant materials to meet different environmental and budget requirements. The power drive components use branded configurations to ensure long-term stable operation of the equipment.
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