ADVANCING OZONE TECHNOLOGY: APPLICATIONS IN HAND SANITIZERS, COSMETICS, AND COMPUTATIONAL FLUID DYNAMICS (CFD) MODELLING FOR ENHANCED PERFORMANCE

Authors

  • Amanatuzzakiah Abdul Halim Department of Biotechnology Engineering, Kulliyyah of Engineering, International Islamic University Malaysia
  • Yusilawati Ahmad Nor International Islamic University Malaysia
  • Fauziah Jerai Universiti Teknologi MARA, Selangor
  • Nur Amira Rosdi Department of Chemical Engineering and Sustainability, Kulliyyah of Engineering, IIUM
  • Dzun Noraini Jimat International Islamic University Malaysia

DOI:

https://doi.org/10.31436/cnrej.v9i2.134

Keywords:

ozone, hand sanitizer, ozonated water, ozonated oil, antimicrobial

Abstract

Ozone technology has emerged as a revolutionary tool in disinfection, cosmetics, and process optimization. This review highlights advances in ozone applications, focusing on its role as a disinfectant in hand sanitizers and cosmetic formulations, and on its optimization using Computational Fluid Dynamics (CFD) modelling. Ozone-based hand sanitizers provide an effective, skin-friendly alternative to alcohol-based products, addressing concerns about dryness and irritation while ensuring broad-spectrum antimicrobial activity. In cosmetics, ozonated oils are recognized for their healing, moisturizing, and antimicrobial properties and are used in diverse skincare formulations. The integration of CFD modelling has significantly improved the efficiency of ozone systems by enabling precise predictions of ozone mist behavior, ensuring safety and optimal disinfection in various environments. This review highlights the potential of ozone technology as a sustainable and versatile solution for enhancing public health and safety while paving the way for innovative applications in multiple industries.

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Published

2025-12-28

How to Cite

Abdul Halim, A. ., Ahmad Nor, Y., Jerai, F., Rosdi, N. A., & Jimat, D. N. (2025). ADVANCING OZONE TECHNOLOGY: APPLICATIONS IN HAND SANITIZERS, COSMETICS, AND COMPUTATIONAL FLUID DYNAMICS (CFD) MODELLING FOR ENHANCED PERFORMANCE. Chemical and Natural Resources Engineering Journal (Formally Known As Biological and Natural Resources Engineering Journal), 9(2), 84–103. https://doi.org/10.31436/cnrej.v9i2.134

Issue

Vol. 9 No. 2 (2025): Chemical and Natural Resources Engineering Journal (Formally known as Biological and Natural Resources Engineering Journal)

Section

Review Articles

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