A Novel Solar Air-Cooling System Featuring 360-Degree Air Dispersion and Battery-Based Energy Storage

Abstract

Abstract: This paper presents the development of an innovative air-cooling system designed to operate efficiently using dsolar energy 
combined with a smart self-charging battery system. The proposed solution aims to provide an eco-friendly and cost-effective alternative 
to traditional cooling methods, particularly suited for regions with abundant sunlight. A key feature of this air cooler is its unique 360
degree air-splitting capability, allowing uniform air distribution in all directions simultaneously. This ensures consistent and effective 
cooling across every corner of a room, enhancing user comfort. The integration of a smart energy management system enables the device 
to store surplus solar energy in its inbuilt battery, allowing continuous operation even during cloudy periods or low sunlight conditions. 
The self-sustaining nature of the system reduces dependence on grid electricity, contributing to lower energy bills and reduced carbon 
emissions. Additionally, the smart control system optimizes energy usage and performance, adapting to environmental conditions in 
real-time. This paper outlines the design architecture, functional components, and energy efficiency considerations of the system, 
supported by performance evaluations under various operating scenarios. The proposed 360-degree solar-powered air cooler represents a 
step forward in sustainable home climate solutions, addressing the dual challenge of increasing energy demands and environmental 
impact. With its ability to maintain cooling performance regardless of whether variations and its innovative air distribution mechanism, 
this system offers a promising advancement in the domain of green and smart cooling technologies. The findings and methodologies 
discussed in this work are expected to contribute significantly to future developments in sustainable and intelligent HVAC systems.  
Keywords: Self-charging, solar based, all-directional air splitting, Cooler, DC, Design.