Engineering Turbulence Modelling and Experiments
Elsevier Science Ltd (Verlag)
978-0-444-89802-9 (ISBN)
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Today understanding turbulence is one of the key issues in tackling flow problems in engineering. Powerful computers and numerical methods are now available for solving flow equations, but the simulation of turbulence effects, which are nearly always important in practice, are still at an early stage of development. Successful simulation of turbulence requires the understanding of the complex physical phenomena involved and suitable models for describing the turbulence momentum, heat and mass transfer. The 89 papers, including five invited papers, in this volume present and discuss new developments in the area of turbulence modelling and measurements, with particular emphasis on engineering-related problems. The high standard of the contributions on the developing and testing of turbulent models attests to the world-wide interest this domain is currently attracting from researchers.
Part 1 Turbulence modelling: modelling convective heat transfer in complex turbulent flows, B.E. Launder; modelling the effects of solid-body rotation on turbulent mixing-layers, P.J. Nilsen and H.I. Andersson; engineering turbulence models for separated flows, U.C. Goldberg. Part 2 Applications of turbulence models: turbulence effects in ,p-p-p- reciprocating engines, A.A. Boretti and P. Nebuloni; higher order turbulence model predictions of complex 2D and 3D flow fields, F.R. Menter; prediction of hydrodynamic characterisics of oxidation ditches using the k-omega turbulence model, A.I. Stamou. Part 3 Direct and large-eddy simulations: direct and large eddy simulation of the flow past a sphere, A.G. Tomboulides et al; direct simulation of turbulent channel flow with finite difference schemes on non-staggered grids, T.H. Le and V. Maupu. Part 4 Experimental techniques: recent developments in hot and cold-wire techniques for measurements in turbulent shear flows near walls, Y. Nagano et al; digital image analysis of two impinging circular jets, N. Toy and B. Shoe. Part 5 Experimental studies: LDV measurements of turbulence characterstics in a two-phase coaxial jet, B.J. Rho et al; turbulence measurements in the physical model of a molten aluminium tundish using laser doppler velocimetry, F. Shen et al. Part 6 Transition: further progress in the turbulence modelling of by-pass transition, M. Savill; structure of a turbulence wedge developed from a single roughness element on a flat plate, M. Ichimiya et al. Part 7 Turbulence control: experimental measurements of phase difference and coupling level in an excited free shear layer, M.R. Haji et al; the development of the wake of a thin ribbon in straight and curved uniformly sheared flows, B. Chebbi and S. Tavoularis. Part 8 Aerodynamic flows: current turbulence modelling in aircraft design, E.H. Hirschel et al; evolution of heat flux with mass flow rate in a subscale setup for the Ariane 5 solid rocket booster, F. Nicoud et al. Part 9 Turbomachinery flows: numerical prediction of the turbulent flow in rotor-rotator systems, L. Elena and R. Schiestel; turbulent flows inside rotating curved channels for different aspect ratios, K. Kikuyama et al. Part 10 Combustion systems: simultaneous multi-species imaging in turbulent flames, S.H. Starner et al; development of turbulent boundary layer with large density gradients, M. Favre-Marinet et al. Part 11 Two-phase flows: modelling turbulence in multiphase flows, C.T. Crowe; measurements and predictions in vertical, two-phase sudden expansion flows, M. Founti and A. Klipfel.
Erscheint lt. Verlag | 5.5.1993 |
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Zusatzinfo | index |
Verlagsort | Oxford |
Sprache | englisch |
Themenwelt | Technik ► Maschinenbau |
ISBN-10 | 0-444-89802-6 / 0444898026 |
ISBN-13 | 978-0-444-89802-9 / 9780444898029 |
Zustand | Neuware |
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