CFD in Fluid Machinery DesignProfessional Engineering Pub. for the Institution of Mechanical Engineers, 1998 - Fluid dynamics - 105 pages The study of flows is a complex field and is both difficult to visualize and control. This text offers a way forward in this field, supplying a potential means of analyzing complex configurations, providing information on local incidence, separations, and the interaction of primary leakage. |
Contents
CFD Process and Applications | 1 |
S54600498 A new method for calculating the start of boundary layer | 15 |
S54600698 Prediction of the threedimensional flow field in a vertical | 59 |
Copyright | |
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Common terms and phrases
2-D pump absolute velocity accuracy adverse pressure gradient aerodynamic ASME average axial boundary conditions boundary layer Boundary Layer Transition calculations cells centrifugal compressors CFD model components Computational Fluid Dynamics correlation design flow design process downstream efficiency equations ESDU exit experimental Figure flow field Fluent free stream turbulence gas turbine grid head flow characteristic impeller tip incompressible flow inlet guide vane k-ɛ turbulence model leading edge length scale mass flow rate maximum turbulence intensity Mechanical Engineers meridional method Navier-Stokes equations orifice outlet plane parameter performance prediction preliminary design pressure gradient flows pressure ratio pressure rise Professional Engineering Publishing profiles radial range recirculation relative Mach number rotating reference frame rotor shut-off conditions simulation skin friction solution stage static pressure stream turbulence intensity streamlines stress suction surface swirl angle tandem vanes tip gap tip speed transition turbochargers Turbomachinery vane number vaned diffuser VIGV system viscosity volute flow