999C1a:GAP101/10/1329 - Výsledky hledání - Digitální repozitář

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	Numerical Calculation of 2D Transonic Flow Over Profile Slouka, M. ; Kozel, Karel Mathematical models used in this work are based on the calculation of inviscid and viscous compressible transonic flow over the profile which is given 8% DCA blade cascade. Two different numerical models are used and compared with experimental measurements. Úplný záznam
	Numerical Solution of 2D Transonic Inviscid and Viscous Compressible Flow in Channel Slouka, M. ; Kozel, Karel The work deals with 2D numerical solution of the transonic inviscid and viscous compressible flow in the channel. Results are based on the solution of the system of Euler equations and Navier-Stokes equations with additional algebraic Baldwin-Lomax model of turbulence. Úplný záznam
	Numerical Simulation of Turbulent Flows Through Turbine Cascade With Rough Blades Fürst, J. ; Louda, Petr ; Příhoda, Jaromír The article deals with numerical simulation of turbulent compressible flows through 2D model of a turbine with rough blades. The mathematical model is based on the Favre-averaged Navier-Stokes equations combined with several two-equations turbulence models. The wall roughness is modeled using an appropriate boundary condition for specific dissipation rate. The comparison with experimental data shows correct increase of energy losses in the case of increased wall roughness. Úplný záznam
	Numerical experiments modelling turbulent flows Trefilík, Jiří ; Kozel, Karel ; Příhoda, Jaromír The paper deals with modification of the transition model with the algebraic equation for the intermittency coefficient proposed originally by Straka and Příhoda (2010) for the bypass transition for modelling of the transition at low free-stream turbulence. The modification is carried out using accessible experimental data for the flat-plate flow. Further, the three-equation k-kL-omega model proposed by Walters and Cokljat (2008) was used for the modelling of the transition at low free-stream turbulence. Both models were tested by means of the incompressible flow around airfoils at moderate and very low free-stream turbulence. Úplný záznam
	Modelling of natural and bypass transition in aerodynamics Fürst, J. ; Straka, P. ; Příhoda, Jaromír The paper deals with modification of the transition model with the algebraic equation for the intermittency coefficient proposed originally by Straka and Příhoda (2010) for the bypass transition for modelling of the transition at low free-stream turbulence. The modification is carried out using accessible experimental data for the flat-plate flow. Further, the three-equation k-kL-omega model proposed by Walters and Cokljat (2008) was used for the modelling of the transition at low free-stream turbulence. Both models were tested by means of the incompressible flow around airfoils at moderate and very low free-stream turbulence. Úplný záznam
	Effect of free stream turbulence on energy losses of turbine blade cascade Nádvorník, M. ; Straka, P. ; Příhoda, Jaromír The contribution deals with the numerical simulation of 2D compressible flow through a linear turbine blade cascade including the laminar/turbulent transition. Predictions ware accomplished by means of several transition models for various free-stream turbulence and Reynolds numbers. Calculated values of the loss coefficient and the outlet flow angle were compared with experimental data obtained for the turbine blade cascade. Úplný záznam
	Modelování přechodu mezní vrstvy v nízkotlaké turbínové mříži Straka, P. ; Příhoda, Jaromír Příspěvek se zabývá aplikací algebraického modelu zkráceného přechodu v přilehlém a odtrženém proudění. Model byl použit pro simulaci proudění v nízkotlaké turbínové lopatkové mříži, kde přechod v odtržené mezní vrstvě má dominantní vliv na vlastnosti proudového pole. Cílem je ukázat některé nedostatky stávajícího modelu přechodu a navrhnout jeho modifikaci. Výsledky modelování jsou porovnány s experimentálními daty. Úplný záznam
	On Parameters of Shock Waves in Saturated Steam Nový, A. ; Jícha, D. ; Šafařík, Pavel ; Hajšman, M. The paper deals with theoretical and numerical study of shock wave parameters in saturated steam. Theoretical approach is based on mass, momentum and energy balance equations. An iterative procedure for solution of state parameters is derived. Numerical solution of steam parameters is performed by means of the iterative procedure using the IAPWS-IF97 water and steam thermodynamic properties. Results are presented and compared with results obtained from ideal gas theory. Úplný záznam
	Numerical Solution of Inviscid Compressible Flow in 2D Channel Slouka, M. ; Kozel, Karel The work deals with numerical solution of the inviscid compressible flow in 2D channel. Results are based on the solution of the full potential equation, small disturbance potential model and system of Euler equations. Úplný záznam
	The Influence of Inlet Velocity Profile on the Flow Through Prismatic Turbine Cascade Fürst, J. ; Luxa, Martin ; Šimurda, David The paper deals with the experimental and numerical research of flows through prismatic turbine cascade. The primary goal is to qualitatively assess the influence of the flow nonuniformity in the vicinity of side walls. Our numerical results indicate that the inlet flow non-uniformity influences the span-wise distribution of energy losses in the cascade. Úplný záznam

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