Abstract
The cost and future prospects of direct and large-eddy numerical simulations are discussed in the context of their use in the development of turbulence theory. It is concluded that even today simulations are comparable to experiments in many aspects, including the Reynolds number, and that simulations at asymptotically large Reynolds numbers should become available within the next decade. For isotropic or free-shear turbulent flows, this should be equivalent to an infinitely large Reynolds number, but to achieve the same result in wall-bounded flows requires the development of a theory for the structure of the logarithmic layer. This is the key obstacle for practical large-eddy simulations of wall flows, and it is argued that its development would be better supported by numerical simulations than by experiments.
This article is a modified version of the original article from the Proceedings of the 5th International Symposium on Engineering Turbulence Modelling and Measurements, Mallorca, 16-18 September 2002, which appeared in ‘Engineering Turbulence Modelling Measurements 5‘, Elsevier Science, ISBN 0-08-044114-9, ed W Rodi and N Fueyo.