Exploring ozonated mist as a disinfection method via simulation-based evaluation

Rahmat, Danial Hakim and Jerai, Fauziah and Farhan, Ahmad Hanaa’ and Yahaya, Nor Afifah and Azizan, Amizon and Abdul Halim, Amanatuzzakiah and Md Yunos, Khairul Faezah (2025) Exploring ozonated mist as a disinfection method via simulation-based evaluation. Journal of Mechanical Engineering, 22 (3). pp. 169-182. E-ISSN 2550-164X

Preview	PDF - Published Version Download (654kB) | Preview
Preview	PDF - Supplemental Material Download (141kB) | Preview

Abstract

In recent years, ozone has gained popularity as a powerful disinfectant and sanitizer. As it can transform into harmless oxygen and disinfect challenging areas, it's a great disinfectant option for healthcare settings, such as an ambulance. However, ensuring the ambulance is fully sanitized is crucial because the ozone water mist needs to be distributed without human intervention; hence, an ozone generator with self-activation is applied to disinfect the air and surfaces. Furthermore, assessing ozone's efficacy and distribution in a sanitization system remains in a preliminary phase, highlighting the importance of studying the behavior, visualization, and efficiency of ozone mist. This study provides a transient Computational Fluid Dynamics (CFD) simulation of ozone mist dispersion in a small, enclosed space possessing minimal air outlets. Unlike steady-state models that only capture peak exposure conditions, the time-dependent approach used here allows for observation of both the build-up and subsequent decline of ozone concentration over time. The simulation results show that ozone levels rise rapidly during the first 60 seconds due to mist generation and then begin to decrease as the ozone decays and escapes through the small opening. This behavior closely resembles actual disinfection scenarios, in which regulated ozone emissions must be followed by adequate decay or ventilation before re-entry. By integrating boundary leakage and transient modeling, the research provides a significant understanding of how operational timing influences ozone retention and dispersion. These findings play a significant role in the progression of safer ozone-based disinfection techniques, especially in mobile treatment environments such as ambulances.

Item Type:	Article (Journal)
Uncontrolled Keywords:	Ozone Computational fluid dynamic Ozone mist Dispersion Emergency transport vehicle Concentration
Subjects:	T Technology > TA Engineering (General). Civil engineering (General)
Kulliyyahs/Centres/Divisions/Institutes (Can select more than one option. Press CONTROL button):	Kulliyyah of Engineering Kulliyyah of Engineering > Department of Biotechnology Engineering
Depositing User:	ms Amanatuzzakiah Abdul Halim
Date Deposited:	23 Dec 2025 11:38
Last Modified:	23 Dec 2025 11:38
Queue Number:	2025-12-Q829
URI:	http://irep.iium.edu.my/id/eprint/125669

Actions (login required)

View Item