| 1 |
Passive, active, and interactive drag-reduction technique to reduce friction and enhance the mixing intensity in rotating disk apparatus
Abdulbari HA, Salleh MAM, Rashed MK, Ismail MHS
Chemical Engineering Communications, 205(12), 1623, 2018 |
| 2 |
Drag reduction using metallic engineered surfaces with highly ordered hierarchical topographies: nanostructures on micro-riblets
Kim T, Shin R, Jung M, Lee J, Park C, Kang S
Applied Surface Science, 367, 147, 2016 |
| 3 |
Simulation of an innovative internal design of a plate solar receiver: Comparison between RANS and LES results
Colleoni A, Toutant A, Olalde G
Solar Energy, 105, 732, 2014 |
| 4 |
Shark skin inspired low-drag microstructured surfaces in closed channel flow
Bixler GD, Bhushan B
Journal of Colloid and Interface Science, 393, 384, 2013 |
| 5 |
Going against the flow.A review of non-additive means of drag reduction
Abdulbari HA, Yunus RM, Abdurahman NH, Charles A
Journal of Industrial and Engineering Chemistry, 19(1), 27, 2013 |
| 6 |
Drag reduction of large wind turbine blades through riblets: Evaluation of riblet geometry and application strategies
Chamorro LP, Arndt REA, Sotiropoulos F
Renewable Energy, 50, 1095, 2013 |
| 7 |
The effect of riblets in rectangular duct flow
Dean B, Bhushan B
Applied Surface Science, 258(8), 3936, 2012 |
| 8 |
Numerical prediction of heat and momentum transfer over micro-grooved surface with a nonlinear kappa-epsilon model
Benhalilou M, Kasagi N
International Journal of Heat and Mass Transfer, 42(14), 2525, 1999 |
