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2024

Conference Publication

Characterisation of edge canopy flow within a linearly staggered heliostat array

Marano, Matthew, Jafari, Azadeh, Emes, Matthew and Arjomandi, Maziar (2024). Characterisation of edge canopy flow within a linearly staggered heliostat array. 24th Australasian Fluid Mechanics Conference, Canberra, ACT Australia, 1-5 December 2024. Perth, WA, Australia: Australasian Fluid Mechanics Society. doi: 10.5281/ZENODO.14213328

Characterisation of edge canopy flow within a linearly staggered heliostat array

2024

Conference Publication

Attenuation of near-wall turbulence in turbulent boundary layers over a perforated surface

Hoang, Van Thuan, Jafari, Azadeh, Cazzolato, Benjamin and Arjomandi, Maziar (2024). Attenuation of near-wall turbulence in turbulent boundary layers over a perforated surface. 24th Australasian Fluid Mechanics Conference, Canberra, ACT Australia, 1-5 December 2024. Perth, WA, Australia: Australasian Fluid Mechanics Society. doi: 10.5281/ZENODO.14213358

Attenuation of near-wall turbulence in turbulent boundary layers over a perforated surface

2024

Conference Publication

Attenuation of wall-normal velocity statistics in a turbulent boundary layer by a passive perforated surface

Jafari, Azadeh, Freidoonimehr, Navid, Hoang, Van Thuan and Arjomandi, Maziar (2024). Attenuation of wall-normal velocity statistics in a turbulent boundary layer by a passive perforated surface. 24th Australasian Fluid Mechanics Conference, Canberra, ACT Australia, 1-5 December 2024. Perth, WA, Australia: Australasian Fluid Mechanics Society. doi: 10.5281/zenodo.14213596

Attenuation of wall-normal velocity statistics in a turbulent boundary layer by a passive perforated surface

2024

Conference Publication

A novel technical solution for using the magnetic levitation technique to measure skin friction drag

Yang, Yuxin, Robertson, William, Jafari, Azadeh and Arjomandi, Maziar (2024). A novel technical solution for using the magnetic levitation technique to measure skin friction drag. 24th Australasian Fluid Mechanics Conference, Canberra, ACT Australia, 1-5 December 2024. Perth, WA, Australia: Australasian Fluid Mechanics Society. doi: 10.5281/ZENODO.14213312

A novel technical solution for using the magnetic levitation technique to measure skin friction drag

2024

Conference Publication

Effects of canopy frontal and plan solidities on the momentum roughness parameters

Jafari, Azadeh, Bou-Zeid, Elie and Arjomandi, Maziar (2024). Effects of canopy frontal and plan solidities on the momentum roughness parameters. 24th Australasian Fluid Mechanics Conference, Canberra, ACT Australia, 1-5 December 2024. Perth, WA, Australia: Australasian Fluid Mechanics Society. doi: 10.5281/zenodo.14213594

Effects of canopy frontal and plan solidities on the momentum roughness parameters

2023

Conference Publication

Heliostat wind load field measurements at the University of Adelaide Atmospheric Boundary Layer Research Facility (ABLRF)

Marano, Matthew, Emes, Matthew, Jafari, Azadeh and Arjomandi, Maziar (2023). Heliostat wind load field measurements at the University of Adelaide Atmospheric Boundary Layer Research Facility (ABLRF). 28th International Conference on Concentrating Solar Power and Chemical Energy Systems, Albuquerque, NM, United States, 27-30 September 2022. Hannover, Germany: TIB Open Publishing. doi: 10.52825/solarpaces.v1i.670

Heliostat wind load field measurements at the University of Adelaide Atmospheric Boundary Layer Research Facility (ABLRF)

2022

Conference Publication

Reducing turbulent skin-friction drag by application of a perforated surface

Jafari, Azadeh, Mckeon, Beverley, Cazzolato, Benjamin S. and Arjomandi, Mazia (2022). Reducing turbulent skin-friction drag by application of a perforated surface. 23rd Australasian Fluid Mechanics Conference, Sydney, NSW, Australia, 4–8 December 2022.

Reducing turbulent skin-friction drag by application of a perforated surface

2022

Conference Publication

Stowing strategy for a heliostat field based on wind speed and direction

Emes, Matthew, Jafari, Azadeh, Collins, Mike, Wilbert, Stefan, Zarzalejo, Luis, Siegrist, Silvan and Arjomandi, Maziar (2022). Stowing strategy for a heliostat field based on wind speed and direction. 26th International Conference on Concentrating Solar Power and Chemical Energy Systems (SolarPACES), Freiburg, Germany, 28 September - 2 October 2020. Melville, NY, United States: AIP Publishing. doi: 10.1063/5.0085677

Stowing strategy for a heliostat field based on wind speed and direction

2020

Conference Publication

Wind load design considerations for the elevation and azimuth drives of a heliostat

Emes, Matthew, Jafari, Azadeh and Arjomandi, Maziar (2020). Wind load design considerations for the elevation and azimuth drives of a heliostat. International Conference on Concentrating Solar Power and Chemical Energy Systems (SolarPACES), Daegu, South Korea, 1-4 October 2019. Melville, NY USA: AIP Publishing. doi: 10.1063/5.0028609

Wind load design considerations for the elevation and azimuth drives of a heliostat

2020

Conference Publication

The Control of a turbulent boundary layer by the application of a micro-cavity array

Silvestri, Anton, Jafari, Azadeh, Bhat, Shantanu, Severino, Gianni, Cazzolato, B.S. and Arjomandi, Maziar (2020). The Control of a turbulent boundary layer by the application of a micro-cavity array. 22nd Australasian Fluid Mechanics Conference AFMC2020, Brisbane, QLD Australia, 7-10 December 2020. Brisbane, QLD Australia: The University of Queensland. doi: 10.14264/3d3e559

The Control of a turbulent boundary layer by the application of a micro-cavity array

2020

Conference Publication

An experimental investigation of unsteady pressure distribution on tandem heliostats

Jafari, Azadeh, Emes, Matthew, Cazzolato, Benjamin, Ghanadi, Farzin and Arjomandi, Maziar (2020). An experimental investigation of unsteady pressure distribution on tandem heliostats. International Conference on Concentrating Solar Power and Chemical Energy Systems (SolarPACES), Daegu, South Korea, 1-4 October 2019. Melville, NY, United States: AIP Publishing. doi: 10.1063/5.0028678

An experimental investigation of unsteady pressure distribution on tandem heliostats

2020

Conference Publication

A summary of experimental studies on heliostat wind loads in a turbulent atmospheric boundary layer

Arjomandi, Maziar, Emes, Matthew, Jafari, Azadeh, Yu, Jeremy, Ghanadi, Farzin, Kelso, Richard, Cazzolato, Benjamin, Coventry, Joe and Collins, Mike (2020). A summary of experimental studies on heliostat wind loads in a turbulent atmospheric boundary layer. International Conference on Concentrating Solar Power and Chemical Energy Systems (SolarPACES), Daegu, South Korea, 1-4 October 2019. Melville, NY, United States: AIP Publishing. doi: 10.1063/5.0028676

A summary of experimental studies on heliostat wind loads in a turbulent atmospheric boundary layer

2019

Conference Publication

A method for the calculation of the design wind loads on heliostats

Emes, Matthew J., Jafari, Azadeh, Ghanadi, Farzin and Arjomandi, Maziar (2019). A method for the calculation of the design wind loads on heliostats. 24th International Conference on Concentrating Solar Power and Chemical Energy Systems (SolarPACES), Casablanca, Morocco, 2-5 October 2018. Melville, NY, United States: AIP Publishing. doi: 10.1063/1.5117532

A method for the calculation of the design wind loads on heliostats

2018

Conference Publication

Estimating the turbulence length scales from cross-correlation measurements in the atmospheric surface layer

Emes, M. J., Jafari, A. and Arjomandi, M. (2018). Estimating the turbulence length scales from cross-correlation measurements in the atmospheric surface layer. Australasian Fluid Mechanics Society.

Estimating the turbulence length scales from cross-correlation measurements in the atmospheric surface layer

2018

Conference Publication

Effect of free-stream turbulence on the drag force on a flat plate

Jafari, Azadeh, Ghanadi, Farzin, Emes, Matthew J., Arjomandi, Maziar and Cazzolato, Benjamin S. (2018). Effect of free-stream turbulence on the drag force on a flat plate. Australasian Fluid Mechanics Society.

Effect of free-stream turbulence on the drag force on a flat plate