Volume 16, Issue 7 (2016)                   Modares Mechanical Engineering 2016, 16(7): 111-120 | Back to browse issues page

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Heidarinejad G, Asadi Moghaddam M R, Pasdar Shahri H. Study of water mist system for pre-cooling the entering air of an air-cooled chiller condenser. Modares Mechanical Engineering. 2016; 16 (7) :111-120
URL: http://mme.modares.ac.ir/article-15-3259-en.html
1- Tehran, Ale Ahmad Ave, Tarbiat Modares University, Department of Mechanical Engineering, Room 309
Abstract:   (2465 Views)
A practical method for improving the COP of an air-cooled chiller is pre-cooling the entering air of its condenser via a water mist system. This article studies a water mist system with hollow-cone spray nozzles and investigates the effects of water flow rate, water droplet diameter and the number of spray nozzles on system performance. Simulations were run by software FLUENT applying Eulerian-Lagrangian method. Solution grid independency was obtained and it was validated with experimental data. According to the results, in a constant air flow rate of 8.3 (kg/s), with increasing the water flow rate from 0.05 to 0.4 (kg/s), percent increase of COP increases from 3 to about 14, but the percentage of evaporated water decreases from 12.13 to 7.62 (however the value of evaporated water increases). Besides, decreasing the water droplets’ diameter from 200 to 50 micrometer, results in percent increase of COP from 4 to 24. Due to less water evaporation in higher flow rates, the number of spray nozzles was raised in a constant total flow rate that according to the results, increasing the number of nozzles improves the system performance. Also with other simulations it was observed that increasing the number of nozzles is more effective in higher flow rates and less drop diameters. Finally by the case study, it was demonstrated using sufficient number of nozzles, it is possible to achieve higher COPs in lower flow rates and therefore in addition to energy consumption decline, the water consumption could be lowered.
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Article Type: Research Article | Subject: Energy in Buildings
Received: 2016/02/27 | Accepted: 2016/06/10 | Published: 2016/07/19

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