Experimental Findings and Analysis of a Split Unit Evaporative Cooler for Efficient and Eco-Friendly Cooling Applications

Mechanical Engineering Department, Muffakham Jah College of Engineering and Technology, Hyderabad 500034, Telangana, India

^* Corresponding author: raheem.junaidi@gmail.com

Abstract

As the global energy demand surges, there is a pressing need to develop energy conservation methods to ensure future comfort requirements are met sustainably. Traditional air conditioners, employing vapor compression refrigeration systems, consume substantial power (around 1.5KW) and entail high costs. Alternatively, evaporative coolers offer a cost-effective and lower-power option for comfort maintenance. However, their drawback lies in the excessive humidity in the cooled air, leading to discomfort for individuals. To address this issue, our article focuses on designing and manufacturing a split cooling unit that efficiently cools the air without increasing its humidity. By recirculating the air through the split unit, we aim to maintain optimal room conditions for comfort. This becomes increasingly vital as inefficient building designs in India contribute to 20-25% of electricity wastage in government buildings, resulting in significant annual energy-related financial losses. Conventional heating, ventilation, and air conditioning (HVAC) systems further exacerbate the problem, consuming about 50% of building energy, mostly sourced from fossil fuels, rendering them environmentally unfriendly and unsustainable. Our split cooling unit seeks to provide an eco-friendly and sustainable solution to tackle this energy challenge.