SMAP: Design And Development Of A Sustainable Modular Air Purifier For Energy-Efficient Indoor Air Quality Management

Abstract

This paper presents the design and development of the Sustainable Modular Air Purifier (SMAP), an innovative solution aimed at improving indoor air quality while minimizing energy consumption. The system features a modular architecture that allows for customizable and targeted air purification based on specific pollutants, including particulate matter, mold spores, and animal dander. Each module is equipped with specialized filters—high-efficiency particulate air, UV-C sterilization, and activated carbon—and operates selectively based on real-time air quality data from advanced sensors. This intelligent activation mechanism is aimed to reduce energy consumption, thus enhancing the system’s sustainability. Its modularity also allows for easy maintenance and adaptability to different indoor environments, making it scalable to a variety of use cases. Through a combination of energy-efficient components and a user-friendly interface, the SMAP ensures high purification efficiency and also contributes to the broader goal of environmental sustainability. The system’s performance, flexibility, and low energy footprint offer a promising solution for maintaining healthy indoor air quality in an environmentally responsible manner