Unique features of HYAC hybrid air coolers

Read on and watch the animations below to learn more about the unique design features that set Alfa Laval HYAC hybrid air coolers apart.

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HybridCool

Combined wet and dry bulb cooling for minimized water consumption

Alfa Laval HybridCool technology makes it possible to combine a traditional air cooler with a WSAC, allowing operators to choose operating mode depending on ambient temperatures in order to save water. During the cooler months of the year, the system can operate in dry mode to save water, and during the hot months wet operation can be engaged to ensure a low outlet temperature.

 

 

By combining the two technologies the overall efficiency of the system is high, system size is small and both power and water consumption are kept to a minimum.

Watch the below animations to learn more.

HYAC Single Zone hybrid air cooler

HYAC Dual Zone hybrid air cooler

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WetSurface

Maximum cooling efficiency and lowest possible outlet temperature

 

 

WetSurface technology offers several distinct benefits:

  • A WSAC cooling system is compact and has low power consumption thanks to its high cooling efficiency.
  • The process medium output temperature is as low as possible thanks to the single approach to the wet bulb temperature.

Wet surface air coolers vs traditional air-cooled heat exchangers

Unlike traditional air-cooled heat exchangers, the tube bundles in a WSAC are sprayed with water and use evaporative cooling to reject the heat from the process medium. This results in superior cooling and a WSAC is both significantly smaller, has a lower power consumption and lower output temperature than an air cooler.

Since the tube bundles are sprayed directly with cooling water, a WSAC system has a single approach to the wet bulb temperature, meaning the process medium output temperature is as low as possible. A WSAC system is capable of cooling the process medium to a temperature just 2.7°C (5°F) above the surrounding wet bulb temperature.

Wet surface air coolers vs cooling towers

A cooling tower/heat exchanger system, on the other hand, has two approaches to the wet bulb temperature due to the intermediate cooling water loop. This means the process medium output temperature will always be higher and an extra chiller stage is required to achieve the same results as with a WSAC.

The cooling water spray and air travel in the same direction (co-current draft), which creates a uniform water film on the tubes that minimizes corrosion.

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FlexWater

WSAC는 배출수와 같은 저품질의 재생수로도 작동할 수 있습니다.

 

튜브 사이의 간격, 노즐 설계 및 냉각탑 충전재 부재로 인해 WSAC는 낮은 품질의 물(예: 냉각탑의 배출수, 처리 폐수 또는 해수)로 작동할 수 있습니다.

WSAC는 냉각탑보다 상당히 높은 농도 주기(C.O.C.)에서 작동할 수 있습니다. 일반적인 C.O.C. WSAC는 약 6개이지만 열교환기가 막히는 것이 문제가 되기 전에 냉각탑은 3도까지 밖에 올라가지 않을 수 있습니다.

수자원 및 높은 C.O.C의 유연성은 물 소비 및 관련 비용을 크게 줄여주므로 물이 비싼 지역에서 WSAC가 이상적인 선택이 됩니다.

Watch 

Watch the above animation to see how the FlexWater technology works.

 

Watch this video to learn more about how you can minimize life cycle cost while maximizing cooling performance with FlexWater.