Authors :
Prashant Kumar Sharma; Nitesh Kumar Pandey; Sachin; Ranjeet Kumar Sharma; Ravi Yadav
Volume/Issue :
RISEM–2025
Google Scholar :
https://tinyurl.com/5e3d7545
Scribd :
https://tinyurl.com/2s3ev5fz
DOI :
https://doi.org/10.38124/ijisrt/25jun188
Abstract :
Air pollution poses a significant threat to public health, with millions of people exposed to harmful pollutants,
particularly in urban and industrial areas. Conventional air purification systems often rely on electrical power or chemical
processes, leading to increased energy consumption and environmental impact. To address these issues, this research
presents Solar air, a solar-powered air purification system that utilizes renewable solar energy to purify indoor and outdoor
air. The system employs a combination of photovoltaic-powered fans and advanced filtration materials, including activated
carbon and HEPA filters, to capture particulate matter, volatile organic compounds (VOCs), and other harmful pollutants.
Field tests demonstrate that Solar air significantly reduces airborne contaminants, with an average removal efficiency of
90% for particulate matter (PM2.5) and a notable reduction in indoor VOC levels. The system's performance is closely tied
to solar intensity, yet it operates with low maintenance and minimal energy costs.
Keywords :
Solar Energy, Air Purification, Renewable Energy, Particulate Matter, Vocs, Photovoltaic Systems, Sustainable Technology, Environmental Impact, Air Quality, Off-Grid Systems.
Air pollution poses a significant threat to public health, with millions of people exposed to harmful pollutants,
particularly in urban and industrial areas. Conventional air purification systems often rely on electrical power or chemical
processes, leading to increased energy consumption and environmental impact. To address these issues, this research
presents Solar air, a solar-powered air purification system that utilizes renewable solar energy to purify indoor and outdoor
air. The system employs a combination of photovoltaic-powered fans and advanced filtration materials, including activated
carbon and HEPA filters, to capture particulate matter, volatile organic compounds (VOCs), and other harmful pollutants.
Field tests demonstrate that Solar air significantly reduces airborne contaminants, with an average removal efficiency of
90% for particulate matter (PM2.5) and a notable reduction in indoor VOC levels. The system's performance is closely tied
to solar intensity, yet it operates with low maintenance and minimal energy costs.
Keywords :
Solar Energy, Air Purification, Renewable Energy, Particulate Matter, Vocs, Photovoltaic Systems, Sustainable Technology, Environmental Impact, Air Quality, Off-Grid Systems.
