Computational fluid dynamics for sport simulation by Davide Detomi, Nicola Parolini (auth.), Martin Peters (eds.)
By Davide Detomi, Nicola Parolini (auth.), Martin Peters (eds.)
All over the realm game performs a well-liked position in society: as a relaxation task for plenty of, as an aspect of tradition, as a enterprise and as an issue of nationwide status in such significant occasions because the international Cup in football or the Olympic video games. for that reason, it isn't impressive that technology has entered the world of activities, and, particularly, that laptop simulation has develop into hugely correct lately. this is often explored during this publication via deciding on 5 assorted activities as examples, demonstrating that computational technological know-how and engineering (CSE) could make crucial contributions to analyze on activities subject matters on either the basic point and, finally, by means of helping athletes’ performance.
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Extra resources for Computational fluid dynamics for sport simulation
L. Sawley. Sailing Yacht Design Using Advanced Numerical Flow Techniques. In Proceedings of the 14th Chesapeake Sailing Yacht Symposium, Annapolis, USA, 1999. 5. A. Claughton. Developments in the IMS VPP Formulations. In Proceedings of the 14th Chesapeake Sailing Yacht Symposium, Anapolis, USA, 1999. 6. G. W. Cowles, N. Parolini, and M. L. Sawley. Numerical Simulation using RANS-based Tools for America’s Cup design. In Proceedings of the 16th Chesapeake Sailing Yacht Symposium, Annapolis, USA, 2003.
G. -S. Honga. In-situ simultaneous strain and temperature measurement of adaptive composite materials using a fiber Bragg grating based sensor. In Proc. of SPIE, San Diego, USA, 2005. Swimming Simulation: A New Tool for Swimming Research and Practical Applications Daniel A. Marinho, Tiago M. Barbosa, Per L. Kjendlie, Jo˜ao P. Vilas-Boas, Francisco B. Alves, Abel I. Rouboa, and Ant´onio J. Silva Abstract This chapter covers topics in swimming simulation from a computational fluid dynamics perspective.
Liu et al.  studied the hydrodynamics and undulating propulsion of tadpoles using a two-dimensional CFD modelling method. The CFD analysis showed that the kinematics of tadpoles is specifically matched to their special shape and produces a jet-stream propulsion with high propulsive efficiency, as high as that achieved by teleost fishes. The authors reported as well that the shapes and kinematics of tadpoles appeared to be specially adapted to the requirement of these organisms to transform into frogs.