2026 Maziar Arjomandi: Mechanical and Aerospace Engineering Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Mechanical and Aerospace Engineering	44	1643	1523	62	59	256	6855

Overview

Maziar Arjomandi is affiliated with the University of Adelaide in Australia. Their research spans multiple fields, primarily focusing on Engineering and Medicine. Within these broad domains, their work is concentrated in subfields such as Computational Mechanics, Aerospace Engineering, Environmental Engineering, Renewable Energy, Sustainability and the Environment, and Surgery.

The scientist's research explores a wide array of topics, which include:

Wind and Air Flow Studies
Fluid Dynamics and Turbulent Flows
Coronary Interventions and Diagnostics
Fluid Dynamics and Vibration Analysis
Solar Thermal and Photovoltaic Systems
Aerodynamics and Acoustics in Jet Flows
Heat Transfer Mechanisms

Maziar Arjomandi has contributed to numerous publications, with a strong presence in journals and conferences such as:

SSRN Electronic Journal
Physics of Fluids
Solar Energy
AIP Conference Proceedings
SolarPACES Conference Proceedings

Recent papers reflect a focus on fluid mechanics, renewable energy, and biomedical flows, including:

Review of scaling laws applied to floating offshore wind turbines, 2022, Renewable and Sustainable Energy Reviews
Effect of shape of the stenosis on the hemodynamics of a stenosed coronary artery, 2021, Physics of Fluids
A review of static and dynamic heliostat wind loads, 2021, Solar Energy
Transitional turbulent flow in a stenosed coronary artery with a physiological pulsatile flow, 2020, International Journal for Numerical Methods in Biomedical Engineering
An experimental model for pressure drop evaluation in a stenosed coronary artery, 2020, Physics of Fluids

Collaboration has been a significant aspect of Arjomandi's research activities, frequently working alongside:

Azadeh Jafari
Benjamin Cazzolato
Navid Freidoonimehr
Matthew Emes
Anthony C. Zander

This network of coauthors demonstrates an interdisciplinary approach bridging engineering with biomedical sciences and renewable energy systems.

Best Publications

Ambient vibration energy harvesters: A review on nonlinear techniques for performance enhancement

Ngan Tran;Mergen H. Ghayesh;Maziar Arjomandi

325
Citations
A critical review of temperature separation in a vortex tube

Yunpeng Xue;Maziar Arjomandi;Richard Kelso

227
Citations
Progress in heliostat development

Andreas Pfahl;Joseph Coventry;Marc Röger;Fabian Wolfertstetter

192
Citations
Large eddy simulation of the wind turbine wake characteristics in the numerical wind tunnel model

Jang-Oh Mo;Amanullah Choudhry;Maziar Arjomandi;Young-Ho Lee

177
Citations
Experimental Investigation on Thermal Performance of a PV/T-PCM (Photovoltaic/Thermal) System Cooling with a PCM and Nanofluid

M. M. Sarafraz;Mohammad Reza Safaei;Arturo S. Leon;Iskander Tlili

154
Citations
Pool boiling heat transfer characteristics of iron oxide nano-suspension under constant magnetic field

Mohammad Mohsen Sarafraz;O Pourmehran;B Yang;M Arjomandi

154
Citations
An insight into the dynamic stall lift characteristics

Amanullah Choudhry;Ryan Leknys;Maziar Arjomandi;Richard Kelso

148
Citations
Assessment of the thermal performance of a thermosyphon heat pipe using zirconia-acetone nanofluids

M.M. Sarafraz;O. Pourmehran;B. Yang;M. Arjomandi

132
Citations
Thermal Assessment of Nano-Particulate Graphene-Water/Ethylene Glycol (WEG 60:40) Nano-Suspension in a Compact Heat Exchanger

Mohammad Mohsen Sarafraz;Mohammad Reza Safaei;Zhe Tian;Marjan Goodarzi

125
Citations
The working principle of a vortex tube

Yunpeng Xue;Maziar Arjomandi;Richard Kelso

116
Citations
Thermal performance analysis of a microchannel heat sink cooling with copper oxide-indium (CuO/In) nano-suspensions at high-temperatures

M.M. Sarafraz;M. Arjomandi

114
Citations
Effects of wind speed changes on wake instability of a wind turbine in a virtual wind tunnel using large eddy simulation

Jang-Oh Mo;Amanullah Choudhry;Maziar Arjomandi;Richard Kelso

111
Citations
Fluid and heat transfer characteristics of aqueous graphene nanoplatelet (GNP) nanofluid in a microchannel

M.M. Sarafraz;B. Yang;O. Pourmehran;M. Arjomandi

110
Citations
A study of long separation bubble on thick airfoils and its consequent effects

Amanullah Choudhry;Maziar Arjomandi;Richard Kelso

105
Citations
Demonstration of plausible application of gallium nano-suspension in microchannel solar thermal receiver: Experimental assessment of thermo-hydraulic performance of microchannel

M.M. Sarafraz;M. Arjomandi

100
Citations
The effect of vortex angle on the efficiency of the Ranque–Hilsch vortex tube

Yunpeng Xue;Maziar Arjomandi

93
Citations
Methods to control dynamic stall for wind turbine applications

Amanullah Choudhry;Maziar Arjomandi;Richard Kelso

93
Citations
Experimental study of the flow structure in a counter flow Ranque–Hilsch vortex tube

Yunpeng Xue;Maziar Arjomandi;Richard Kelso

88
Citations
Performance comparison of the floating and fully submerged quasi-point absorber wave energy converters

N.Y. Sergiienko;B.S. Cazzolato;B. Ding;P. Hardy

87
Citations
Modelling of wind turbine wake using large eddy simulation

Nima Sedaghatizadeh;Maziar Arjomandi;Richard Kelso;Benjamin Cazzolato

83
Citations
Thermal and hydraulic analysis of a rectangular microchannel with gallium-copper oxide nano-suspension

M.M. Sarafraz;H. Arya;M. Arjomandi

79
Citations

Frequent Co-Authors

Graham J. Nathan University of Adelaide

Bassam B. Dally King Abdullah University of Science and Technology

Mergen H. Ghayesh University of Adelaide

Marjan Goodarzi Lamar University

Mohammad Reza Safaei Florida International University

Iskander Tlili Majmaah University

Hamed Farokhi Northumbria University

Said F. Al-Sarawi University of Adelaide

Derek Abbott University of Adelaide

Rahmat Ellahi International Islamic University, Islamabad

External Links

Personal website of Maziar Arjomandi Google Scholar page

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