|
|
|
|
Invited Industrial Keynote Speaker
Title to be confirmed
J. Gunner
Koenigsegg, Sweden
|
|
|
Invited Academic Keynote Speaker
Title to be confirmed
Prof. E. G. Paterson
Virginia Polytechnic Institute and State University, USA
|
|
|
Invited Speaker
Title to be confirmed
Dr. R. Grover
General Motors, USA
|
|
|
Title to be confirmed
J. Papper
ICON, UK
|
|
|
Implementation and Stabilisation of the Adjoint Flow Model with Adjoint k-epsilon Turbulence and Adjoint Wall Functions in OpenFOAM®
H. Jasak*,**, N. Lisjak**
*Wikki Ltd, UK; **University of Zagreb, Croatia
|
|
|
Aerodynamic Simulation in the Development of a WRC Rally Car
H. Dechipre
Volkswagen Motorsport GmbH, Germany
|
|
|
Hybrid Multiphase Solver Based on OpenFOAM® for Bubble Column Reactor Design
M. Maekawa, Z. Zhang
Chiyoda Corporation, Japan
|
|
|
Producing Generic Advice on Indoor Dispersion Using Automated CFD Processing
T. Foat, S. Harrison, J. Nally, S. Parker, S. Parry
DSTL , UK
|
|
|
Retopologisation as an Answer to the Problem of Mesh Motion for Large Deformations
W. Wambold
Volkswagen AG, Germany
|
|
|
Numerical Aerodynamic Investigations of the DrivAer Car Model Using Open Source CFD Solver OpenFOAM®
G. Shinde, A. Joshi, K. Nikarn
Tata Consultancy Services, India
|
|
|
A Comparison of 2D and 3D Wigley Hull Simulations
M. Myers, O. Yapar
Vanderbilt University, USA
|
|
|
CFD Analysis of a Single MRL Tidal Turbine
M. Berry, G. Tabor
University of Exeter, UK
|
|
|
Building Block for Automatisation: PyFoam
B. Gschaider
ICE Strömungsforschung , Austria
|
|
|
Performance Improvement on the Algebraic Multigrid Solver in OpenFOAM®
H. Jasak
Wikki Ltd, UK; University of
Zagreb, Croatia
|
|
|
Mesh Studies for External Aero Simulations in Automotive Applications
A. Iordanidis, V. Skaperdas
BETA CAE Systems S.A., Greece
|
|
|
A New Approach to Open CFD
C. Francke, Y. Li, K. Claramunt, C. Hirsch
NUMECA International , Belgium
|
|
|
GA Optimisation of CFD Models and Meshes
G. Tabor
University of Exeter , UK
|
|
|
Title to be confirmed
D. Nagy
BeyondCAE, USA
|
|
|
Analysis of the Power Losses in Geared Transmissions - Measurements and CFD Calculations Based on Open Source Codes
F. Concli, C. Gorla
Politecnico di Milano, Italy
|
|
|
Implementation of a Phase Field Method in OpenFOAM® for Simulation of Spreading Droplets and Verification by Test Problems
X. Cai, M. Wörner, O. Deutschmann
Karlsruhe Institute of Technology, Germany
|
|
|
Coupling DrNUM and OpenFOAM® for Efficient External Aerodynamics Simulations
O. Gloth
enGits GmbH, Germany
|
|
|
Advancing Turbulent Combustion Modeling Using the Eddy Dissipation Concept with Detailed Chemistry
D.A. Lysenko*, I.S.
Ertesvåg*, K.E. Rian**
*Norwegian University of
Science and Technology, Norway; **Computational Industry Technologies AS, Norway
|
|
|
Utilization of OpenFOAM® in the Reactive Production of Polymer Composite Materials
J. Nagy
Johannes Kepler University Linz, Austria
|
|
|
A Finite-Volume Solver for Two-Fluid Flow in Heterogeneous Porous Media Based on OpenFOAM®
O. Oxtoby, J. Heyns, R. Suliman
Council for Scientific and Industrial Research, South Africa
|
|
|
LBMHexMesh: an OpenFOAM® Based Grid Generator for Lattice Boltzmann Method (LBM)
A. Pasquali, M. Schoenherr, M. Geier, M. Krafczyk
Technische Universität Braunschweig, Germany
|
|
|
CFD Modeling of Low Rate Direct Contact Condensation Phenomena in Suppression Pool by Eulerian Two-Phase Flow Approach
G. Patel, V. Tanskanen, R. Kyrki-Rajamäki
Lappeenranta University of Technology, Finland
|
|
|
Charge Motion and Mixture Formation Analysis of a Direct Injection Spark Ignition Engine Using OpenFOAM®
K. G. Stapf
Ingenieurbüro TWB, Germany
|
|
|
Application-Driven Development of Open Source Simulation Technology: An Overview of DEM and CFD-DEM Models and their Applications
C. Goniva*,**, C. Kloss*,**, S. Pirker*
*Johannes Kepler University Linz, Austria; **DCS Computing GmbH, Austria
|
|
|
Analysis for Drift Control of Supplied Material in Blast Furnace Using DEM in OpenFOAM®
N. Kurata
IHI Corporation, Japan
|
|
|
Evaluating the Performance of a Rotary Vane Expander for Small Scale Organic Rankine Cycles using OpenFOAM®
A. Della Torre*, G. Montenegro*, M. Fiocco*, A. Onorati*, G. Schlager**, C.Benatzky**
*Politecnico di Milano, Italy; **Magna Powertrain, Austria
|
|
|
1-D Simulation of Transient Two-Phase Flow Phenomena in Hilly-Terrain Pipeline Systems
G. Reiss
ICE Strömungsforschung, Austria
|
|
|
DrNUM: A Framework for Dual Resolution Numerics on High Performance Hardware
R. Vilsmeier*, O. Gloth**
*numrax GmbH, Germany; **enGits
GmbH, Germany
|
|
|
Vortex-Based Mixed Lagrangian-Eulerian Solver for Multi-Scale Fluid Dynamic Problem
N. Singh*, T. Ian**
*Imperial College London, UK; **University of Strathclyde, UK
|
|
|
|
