Women Researcher Award

   Efaf Zahra Mahdizadeh Gohari
Affiliation Queensland University of Technology
Country Australia
Google Scholar ID aKFQBnUAAAAJ
Documents 4
Citations 48
h-index 1
Subject Area Sustainable Tech
Event Technology Scientists Awards
ORCID 0009-0007-3005-499X

Efaf Zahra Mahdizadeh Gohari is affiliated with Queensland University of Technology, Australia, where her research focuses on sustainable technologies, computational fluid dynamics, thermal engineering, and process optimization. Her published work investigates static mixer performance, desalination systems, and multiphase flow modelling, contributing to engineering solutions that improve energy efficiency and sustainable industrial processes.[1]

Abstract

Efaf Zahra Mahdizadeh Gohari conducts engineering research centred on sustainable technology, computational fluid dynamics, fluid mixing, and desalination processes. Her publications investigate innovative static mixer configurations, thermodynamic performance, and numerical simulation techniques that improve industrial efficiency and resource utilization. Through analytical modelling and computational evaluation, her studies contribute practical knowledge for energy-efficient process engineering while supporting environmentally responsible technological development. Her scholarly profile reflects emerging research activity with measurable citation impact and growing recognition within sustainable engineering and thermal systems research.[1][2][3]

Keywords

Sustainable Technology, Computational Fluid Dynamics, CFD, Static Mixers, Fluid Mixing, Multiphase Flow, Desalination, Thermodynamics, Heat Transfer, Numerical Modelling, Engineering Simulation, Process Optimization, Renewable Engineering, Industrial Sustainability, Thermal Systems.

Introduction

The research of Efaf Zahra Mahdizadeh Gohari emphasizes sustainable engineering through computational modelling and process optimization. Her investigations explore advanced mixing technologies, thermal systems, and efficient desalination methods, supporting industrial innovation by combining numerical analysis with engineering design principles for improved operational performance and environmental sustainability.[1][2]

Research Profile

Affiliated with Queensland University of Technology, her academic profile includes four documented publications, forty-eight citations, and an h-index of one. Her work integrates computational fluid dynamics, thermodynamic assessment, and sustainable process engineering to evaluate industrial technologies using quantitative engineering methodologies and scientific validation.[1][3]

Research Contributions

Her research contributes to understanding fluid mixing efficiency, hybrid static mixer development, and humidification–dehumidification desalination systems. Numerical simulations and thermodynamic analyses provide engineering evidence that assists optimization of industrial equipment, promoting enhanced energy utilization, process reliability, and environmentally sustainable engineering applications.[1][2][3]

Publications

Published studies examine numerical modelling of static mixers, comparative analyses of conventional and innovative designs, thermodynamic evaluation of desalination systems, and computational investigation of turbulent flow behaviour. Collectively, these publications demonstrate interdisciplinary expertise spanning fluid mechanics, sustainable technology, and computational engineering research.[1][2][3]

Research Impact

Citation indicators demonstrate increasing scholarly recognition of her engineering research. Her publications support ongoing investigations into sustainable industrial systems by providing computational evidence and analytical methodologies useful for researchers, engineers, and practitioners developing advanced thermal and process engineering technologies.[1][3]

Award Suitability

Her documented research activities, measurable publication record, and contributions to sustainable engineering align with the objectives of the Technology Scientists Awards. The combination of computational innovation, interdisciplinary engineering applications, and commitment to environmentally responsible technologies supports consideration for the Women Researcher Award.[1][2]

Conclusion

Efaf Zahra Mahdizadeh Gohari has developed an emerging academic profile focused on sustainable technology, computational engineering, and process optimization. Her research demonstrates scientific rigor through numerical modelling and engineering analysis, contributing valuable knowledge to fluid dynamics, desalination, and industrial sustainability while supporting future advances in engineering research.[1][2][3]

References

  1. Mahdizadeh Gohari, E. Z., et al. (2024). Numerical Modelling and Comparative Analysis of Novel and Traditional Static Mixers for Single and Multiphase Fluid Mixing. Queensland University of Technology ePrints.
    https://eprints.qut.edu.au/255833/
  2. Mahdizadeh Gohari, E. Z., et al. (2023). Thermodynamic Analysis of Humidification-Dehumidification Desalination System with Semi-open Air Circulation. Modares Mechanical Engineering Journal.
    https://mej.aut.ac.ir/article_730_en.html?lang=fa
  3. Mahdizadeh Gohari, E. Z., et al. (2026). Performance Evaluation of Turbulent Flow Mixing Using Novel Hybrid Static Mixer: A CFD Study. Journal of Engineering Science and Technology.
    https://www.sciencedirect.com/science/article/pii/S0255270126002448?ssrnid=6409368&dgcid=SSRN_redirect_SD
  4. Google Scholar. (n.d.). Author profile: Efaf Zahra Mahdizadeh Gohari.
    https://scholar.google.com/citations?user=aKFQBnUAAAAJ&hl=en
  5. ORCID. (n.d.). ORCID record: Efaf Zahra Mahdizadeh Gohari.
    https://orcid.org/0009-0007-3005-499X
Efaf Zahra Mahdizadeh Gohari | Sustainable Tech | Women Researcher Award

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