Modeling and optimization of water mist system for effective air-cooled heat exchangers

Air-cooled heat exchangers (ACHEs) are one of the most efficient and widely used equipment for heat exchange. However, the main disadvantages of ACHEs are their heat exchange performance is decreased by high ambient air temperature (Ta), especially on summer season. To solve this problem, a water mist system that sprays an amount of water is applied to ACHEs. However, the water mist system causes corrosion problems of the peripheral devices. Therefore, it is crucial to find a proper water mist system with optimized operating conditions that improve the cooling effect without corrosion. Herein, we developed the CFD model to find the optimal amount of water sprayed. Cooling effect and water evaporation ratio according to the amount of water sprayed and Ta were calculated using the CFD model. As a result of the calculation, the amount of water that gives the target cooling effect as all water evaporates is 3.364 kg/h and 7.928 kg/h at Ta of 303.15 K and 313.15 K, respectively. This study provides the optimal amount of water sprayed on the water mist system considering the cooling effect and corrosion according to Ta, and it can apply to the commercial processes. (c) 2021 The Author(s). Published by Elsevier Ltd.

Automated summary

In this study, a CFD model was developed to determine the optimal amount of water sprayed in a water mist system for air-cooled heat exchangers (ACHEs). The cooling effect and water evaporation ratio were calculated based on the amount of water sprayed and ambient air temperature. The results showed that the required amount of water to achieve the target cooling effect and complete water evaporation were 3.364 kg/h and 7.928 kg/h at different ambient air temperatures. This study is significant for optimizing the water mist system in commercial processes.