Search Results - "Windkanal"
-
1
-
2
Quantitative study of a full-scale pedaling mannequin for wind tunnel testing
Térol, S., Limousin, L., Nival, Y., Moly, A., Micheletti, Q., Acco, P., Soto-Romero, G., Costes, A.Published in Sports Engineering (2025)“…Windkanal…”
-
3
Aerodynamic drafting in mass-start non-motorized sports: a systematic review
Beaumont, F., Murer, S., Bogard, F., Polidori, G.Published in Journal of Biomechanics (2025)“…Windkanal…”
-
4
Validity and Reliability of an on-bike sensor system for the determination of aerodynamic drag in cycling
Hopker, J., Barnes, C., Fennell, C., Gibson, S.Published in SportRxiv Preprints (2024)“…Windkanal…”
-
5
Practical computational fluid dynamic predictions of a cyclist in a time trial position
Taylor, M., Butcher, D., Crickmore, C., Walker, A. D.Published in Sports Engineering (2024)“…Windkanal…”
-
6
-
7
-
8
The influence of turbulence on cycling aerodynamics
Brown, C., Burton, D., Crouch, T., Thompson, M. C.Published in Journal of Wind Engineering and Industrial Aerodynamics (2024)“…Windkanal…”
-
9
Wind tunnel evaluation of novel drafting formations for an elite marathon runner
Marro, M., Leckert, J., Rollier, E., Salizzoni, P., Bailly, C.Published in Proceedings of the Royal Society A (2023)“…Windkanal…”
-
10
-
11
-
12
-
13
-
14
-
15
-
16
-
17
-
18
A wind-tunnel case study: Increasing road cycling velocity by adopting an aerodynamically improved sprint position
Crouch, T., Menaspà, P., Barry, N., Brown, N., Thompson, M. C., Burton, D.Published in Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology (2021)“…Windkanal…”
-
19
The application of body scanning, numerical simulations and wind tunnel testing for the aerodynamic development of cyclists
Chi, S., Pitman, J., Crouch, T., Burton, D., Thompson, M.Published in Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology (2021)“…Windkanal…”
-
20