Comprehensive Assessment and Remediation Strategies for Air Pollution: Current Trends and Future Prospects; A Case Study in Bompai Industrial Area, Kano State, Nigeria.

Authors

Keywords:

Air pollution, emission, atmosphere, particulate matter (Pm), sulfur dioxide (SO2), nitrogen dioxide, Carbon monoxide, ozone

Abstract

Air pollution poses a significant and multifaceted challenge, impacting both human health and ecological systems on a global scale. The combustion of fossil fuels, industrial processes, vehicular emissions, and natural sources release a myriad of pollutants into the atmosphere, leading to adverse effects such as respiratory diseases, cardiovascular disorders, and ecosystem degradation. As urbanization and industrialization continue to escalate, understanding the dynamics of air pollution, along with developing effective assessment and remediation strategies, becomes paramount. This study delves into the realm of comprehensive assessment and innovative remediation approaches for air pollution, focusing on a vivid case study set in the Bompai industrial area of Kano State, Nigeria. Through the integration of advanced monitoring techniques, data analytics, and policy analysis, this research endeavors to unravel the intricacies of air quality deterioration in a region marked by diverse industrial activities and anthropogenic influences. By exploring the trends of key air pollutants, such as particulate matter (PM), sulfur dioxide (SO2), nitrogen dioxide(NO2), carbon monoxide(CO), and ozone (O), this study seeks to elucidate the immediate and long-term implications for public health and the environment. The Bompai industrial area, with its array of industrial sectors, serves as an illuminating microcosm that exemplifies the intricate interplay between industrial progress and environmental degradation. Through a meticulous examination of real-time air quality data collected over an extended period, this study aims to discern pollution sources, diurnal variations, and meteorological factors shaping pollution dispersion. Such insights contribute to the formulation of targeted and efficient remediation strategies, aligning with global aspirations for cleaner air and healthier societies. The findings from this study are anticipated to not only enhance our comprehension of air pollution dynamics in industrial contexts but also illuminate the pathway toward sustainable urban and industrial development. By emphasizing the significance of multi-dimensional approaches encompassing regulatory frameworks, technological innovations, public awareness campaigns, and international collaborations, this research underscores the urgency of addressing air pollution as a collective responsibility for present and future generations,

Author Biographies

  • Bertha Onyenachi Akagbue, Marshall University Huntington West Virginia USA

    Department of Environmental, Health and Safety

  • Oseigbovo Favour Ofure, University of Technology, Owerri, Nigeria

    Department of Petroleum Engineering

  • Oluwaiye Unity Ekugbe, Ahmadu Bello University, Zaria, Kaduna State, Nigeria

    Department of Mechanical Engineering

  • Onah Kyrian, University of Nigeria Nsukka

    Department Of Zoology and Environmental Biology

  • Mu’awiya Baba Aminu, Federal University Lokoja, Kogi State, Nigeria

    Department of Geology

  • Pam Dajack Dung, University of Jos, Plateau State, Nigeria

    Department of Geology

  • Suleiman Isa Babale, Bayero University, Kano, Nigeria

    Department Of Geology

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Published

2023-09-08

Issue

Vol. 10 No. 1 (2023): VOLUME 10 ISSUE 1

Section

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