| 1 |
The influence of atmospheric boundary layer turbulence on the design wind loads and cost of heliostats
Emes MJ, Jafari A, Coventry J, Arjomandi M
Solar Energy, 207, 796, 2020 |
| 2 |
Experimental investigation of peak wind loads on tandem operating heliostats within an atmospheric boundary layer
Yu JS, Emes MJ, Ghanadi F, Arjomandi M, Kelso R
Solar Energy, 183, 248, 2019 |
| 3 |
Hinge and overturning moments due to unsteady heliostat pressure distributions in a turbulent atmospheric boundary layer
Emes MJ, Jafari A, Ghanadi F, Arjomandi M
Solar Energy, 193, 604, 2019 |
| 4 |
Investigation of peak wind loads on tandem heliostats in stow position
Emes MJ, Ghanadi F, Arjomandi M, Kelso RM
Renewable Energy, 121, 548, 2018 |
| 5 |
Effect of turbulence characteristics in the atmospheric surface layer on the peak wind loads on heliostats in stow position
Emes MJ, Arjomandi M, Ghanadi F, Kelso RM
Solar Energy, 157, 284, 2017 |
| 6 |
Effect of heliostat design wind speed on the levelised cost of electricity from concentrating solar thermal power tower plants
Emes MJ, Arjomandi M, Nathan GJ
Solar Energy, 115, 441, 2015 |
| 7 |
Second Harmonic Generation Mediated by Aligned Water in Starch Granules
Cisek R, Tokarz D, Krouglov S, Steup M, Emes MJ, Tetlow IJ, Barzda V
Journal of Physical Chemistry B, 118(51), 14785, 2014 |
