What question did this study set out to answer?

The aim is to review the fundamental chemical processes involved in air pollution control technologies.

April 19, 2026Open Access

Air Pollution Control Technologies: A Chemical Perspective

Key Points

The aim is to review the fundamental chemical processes involved in air pollution control technologies.
Analyzed various air pollution control technologies from a chemical perspective.
Discussed fundamental removal mechanisms like adsorption and filtration.
Presented case studies illustrating device-level implementations.
Examined emerging materials and process intensification strategies.
Highlighted the importance of chemical mechanisms in air pollution control.
Showcased effective designs and trade-offs in real-world applications.
Identified key advancements driven by reaction pathways and surface interactions.

Abstract

Air pollution control (APC) technologies are critical to protect human health and the environment by reducing emissions from stationary and mobile sources. This paper reviews principal APC technologies from a chemical standpoint: the fundamental removal mechanisms (adsorption, absorption, catalysis, filtration, electrostatic collection, and chemical transformation), device-level implementations (scrubbers, electrostatic precipitators, baghouses, selective catalytic reduction, thermal/catalytic oxidizers, activated carbon systems), and emerging materials and process intensification strategies. Representative case studies illustrate real-world performance, design considerations, and trade-offs. The review underscores the central role of chemistry — reaction pathways, surface interactions, sorbent design, and catalytic mechanisms — in driving advances in air pollution control. 1–3

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Cite This Study

Sanghratna L. Kasare (Fri,) studied this question.

synapsesocial.com/papers/69e47321010ef96374d8f009 https://doi.org/https://doi.org/10.5281/zenodo.18507328

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