High Impact Factor : 4.396 icon | Submit Manuscript Online icon |

Study,design and analysis of two stage evaporative cooling system


Prof. Gaurav Gohane , J.D.College of Engineering And Management,Nagpur; Vikrant.D.Chaudhary, J.D.College of Engineering And Management,NAGPUR; Rajendra.K.Wanjari, J.D.College of Engineering And Management,NAGPUR; Sanket.N.Manwatkar, J.D.College of Engineering And Management,NAGPUR; Anmol.P.Ambade, J.D.College of Engineering And Management,NAGPUR


Evaporative Cooling System, Indirect Evaporative Cooling System


In this paper we have studied an assisted evaporative cooling system is design and analysis to get increases in cooling efficiency to get hot environment and reducing a mint of moisture added to air. Evaporative cooling is responsible for the chill you feel when a breeze strikes your skin the air evaporates the water on your skin, with your body heat providing the energy. The ancient Egyptians hung wet mats in their doors and windows, and wind blowing through the mats cooled the air the first attempt at air conditioning. This basic idea was refined through the centuries: mechanical fans to provide air movement in the 16th century, cooling towers with fans that blew water-cooled air inside factories in the early 19th century, swamp coolers in the 20th century. In Two stages evaporative cooling are also known as “Indirect and direct “cooler. In the first stage, incoming air passed through a heat exchanger that can be cools the air without adding moisture. In second stage, air passes through the water soaked pad where the temperature dropped more and air to be pick the water which is increasing the humidity. Here, in this cooling system incoming hot air is first passed through the cooling pad that is heat exchanger when temperature of air to be decreases and this air is again passing through the cooling medium and then evaporated into the atmosphere. so, two stage evaporative cooling system is an smart cooling as considered as an cost factor and power saving.

Other Details

Paper ID: IJSRDV3I1109
Published in: Volume : 3, Issue : 1
Publication Date: 01/04/2015
Page(s): 325-328

Article Preview

Download Article