883 research outputs found

    C.B. Biezeno (March 2, 1888 - September 5, 1975)

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    Obituary of prof. C.B. Biezeno, written by his former PhD candidate and his later colleague prof. W.T. Koiter.Mechanical, Maritime and Materials Engineerin

    Rede uitgesproken op 17 september 1956 ter gelegenheid van de erepromotie van Dr. Th. von Karman door de promotor Dr. C.B. Biezeno

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    Rede uitgesproken door prof. C.B. Biezeno ter gelegenheid van de erepromotie aan de TH Delft van dr. Theodore von Karman.Precision and Microsystems EngineeringMechanical, Maritime and Materials Engineerin

    Biezeno en de mechanica - Herdenkingsdag 14 mei 1976.

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    Presentations at a symposium commemorating the death of prof.dr.ir. C.B. Biezeno on 5 September 1975. Presentations by prof. A. van der Neut, prof. R.G. Boiten, prof. W.T. Koiter, prof. J.P. den Hartog, and prof. J.F. Besseling.Mechanical, Maritime and Materials Engineerin

    Afscheidscollege van Prof. Dr Ir C.B. Biezeno

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    Mechanical, Maritime and Materials Engineerin

    John and Pete Johson with C.B. Olson

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    Photograph - Three men holding up furs with numerous furs hanging on a fence in the background, Soto Landing, Alberta. A note on back reads: John and Pete Johnson and C.B. Olson nearly cleaned a pack of wolves south side of Marten Mountain at Wasp Cree

    A desirable future for technology risk management

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    This paper outlines a scenario for the future of Technology Risk Management which the author suggests is internally consistent, linked to current practice, achievable, and desirable. It is a personal view which reflects the concerns and goals of the author. It is offered as a basis for discussion with others of the goals we might seek jointly to facilitate effective progress

    Nonequilibrium and classical dissipation scalings in DNS of homogeneous isotropic decaying turbulence

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    We present data from direct numerical simulations of homogeneous isotropic decaying turbulence showing both the non-equilibrium and the classical dissipation scalings reported in wind-tunnel experiments of both regular and fractal grid-generated turbulence, i.e. Cε ∼ (Re0/Reλ)n with n of order unity and Cε ∼ constant, respectively (Re0 and Reλ are global and local Reynolds numbers). These two dissipation behaviours lead to different power-law decay exponents in both regimes also in accord with the experiments. Finally, we show that in both regimes the maximum non-linear energy cascade flux, Π, reasonably satisfies the classical expectation that Π ∼ K3/2/l
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