001 | Chashechkin Y. D., Prokhorov E.: Hydrodynamics, Energetics and Acoustics of Free Falling Drop Impact at a Motionless Fluid |
002 | Chashechkin Y. D., Zagumennyi I. V.: Natural Unsteadiness of the Flow Pattern Around a Plate in Numerical Simulation and Laboratory Modeling |
003 | Čížek M., Vampola T., Popelka L.: Comparison of Labyrinth Seal Calculation and Real Aircraft Turbine Engine Measurement |
004 | Clément J.-B., Golay F., Ersoy M., Sous D.: Adaptive Discontinuous Galerkin Method for Richards Equation |
005 | Crha J., Kašpar O., Basařová P.: CFD Simulation of a Sub-Millimeter Rising Bubble in a Stagnant Liquid |
006 | Deuring P., Kračmar S., Nečasová Š.: Recent Results on the Problem of Motion of Viscous Fluid Around a Rotating Rigid Body |
007 | Dimitrieva N., F.: Calculation of Nonuniform Fluid Flows in a Gravity Field |
008 | Duda D.: Individual Vortex Searching Algorithm |
009 | Duriez J., Galusinsky C.: Level Set Representation on Octree for Granular Material with Arbitrary Grain Shape |
010 | Flídr E., Kladrubský M., Jelínek T.: Unsteady Pressure Measurement in an End-Wall Region of a Linear Blade Cascade |
011 | Hlavatý T., Isoz M., Plachá M., Šourek M., Koćí P.: Geometrically Realistic Macro-Scale Model for Multi-Scale Simulations of Catalytic Filters for Automotive Gas Aftertreatment |
012 | Ilinykh A. Yu.: Fine Structure Distribution of Immiscible Fluid at The Drop Impact to Fluid Surface |
013 | Isoz M., Šourek M.: POD-DEIM-Based Model Order Reduction for Four-Way Coupled Fluid-Solid Flows |
014 | Korinek T., Tisovsky T., Hujer J., Zimmerman K.: Partially-Averaged Navier-Stokes Simulation of the Flow Around Circular Cylinder at Re=3900: Comparison of Low and High Reynolds Number Approaches |
015 | Kouba J., Novotný J., Nožička J.: Laser-Induced Kernel Visualisation by OH* Chemiluminescence Method |
016 | Kuzmina K., Marchevsky I., Soldatova I.: The High-Accuracy Numerical Scheme for the Boundary Integral Equation Solution in 2D Lagrangian Vortex Method With Semi-Analytical Vortex Elements Contribution Accounting |
017 | Levý T., Vimmr J.: Developing Fully-Coupled Density-Based Solver for Turbulent Compressible Fluid Flows in OpenFOAM |
018 | Louda P., Příhoda J.: Study on Performance of Various Turbulent Heat Transfer Closures |
019 | Marchevsky I.K., Kuzmina K. S., Ryatina E. P.: Flow Simulation around a Circular Cylinder for Low Reynolds Numbers and Determining the Flow Separation Point in VM2D Code |
020 | Marchevsky I.K., Shcheglov G.A., Dergachev S. A.: On the Algorithms for Vortex Element Evolution Modelling in 3D Fully Lagrangian Vortex Loops Method |
021 | Marušić – Paloka E., Pažanin I., Radulović M.: On The Lubrication of a Rotating Shaft with Incompressible Micropolar Fluid |
022 | Pech J.: Laminar-Turbulent Transition in View of Flow Separation from Isothermal and Heated Cylinder |
023 | Pires M., Bodnár T.: On the Influence of Diffusion Stabilization in Oldroyd-B Fluid Flow Simulations |
024 | Ringstad K. M., Khalili M. E., Müller B.: High Order Immersed Boundary Method for Fluid-Structure Interaction of Viscous Compressible Flowwith a Rigid Body |
025 | Schiavon M., Tampieri F., Caggio M., Bodnár T.: The Effect of Submeso Motions on Second-Order Moment Budgets in the Stable Atmospheric Boundary Layer |
026 | Shmigirilov R., Ryabinin A.: Influence of End Plates on Rotational Oscillations of a Rectangular Cylinder |
027 | Šidlof P., Lasota M.: Aeroacoustic Simulation of Human Phonation with the Wale Sub-Grid Scale Model |
028 | Šourek M., Isoz M.: Development of CFD Solver for Four-Way Coupled Particle-Laden Flows |
029 | Straka P., Příhoda J.: Modification of the Algebraic Transition Model for Wall Roughness Effect Including a Rough Strip |
030 | Sváček P.: Simulation of Interaction of the Airflow with Vocal Folds Vibration Considering the Vocal Folds Contact |
031 | Uruba V., Procházka P., Skála V.: On the 3D Dynamics of the Wake Behind a Circular Cylinder |
032 | Varnhorn W.: A Lagrangian Approach for Weak Solutions of the Navier-Stokes Equations |
033 | Zemach T.: On Gravity Currents over a Porous Floor in Power-Law Cross-Section Channels |