Waste Management & Air Pollution Control Using Activated Charcoal

Abstract

Air pollution poses a grave threat to global public health, endangering millions of lives with toxic gases and particulate matter. This pioneering research introduces an innovative solution: air sterilizers utilizing activated charcoal sourced from waste materials, with a forward-looking integration of artificial intelligence (AI) technology as part of future research directions. By delving into the intricate science of adsorption, the study reveals the profound potential of activated charcoal in mitigating air pollution.

Thorough exploration of diverse waste sources underpins this study, outlining practical and sustainable methods for charcoal production. The research emphasizes the economic viability and scalability of charcoal-based air sterilizers, while also considering policy implications. The integration of AI in future applications promises to optimize the adsorption process, ensuring enhanced efficiency in capturing pollutants and advancing the efficacy of air sterilization techniques.

This comprehensive analysis not only underscores the environmental consciousness of the approach but also signals a pivotal step toward future sustainable practices in air quality management. By bridging the gap between traditional methods and cutting-edge technology, this research serves as a cornerstone, laying the groundwork for a greener, cleaner future. Through the integration of activated charcoal and AI technology, this paper contributes significantly to the ongoing global efforts to combat air pollution and create a healthier environment for all.