|
|
No. |
Presentation Type |
Title |
Author |
Organization |
Country |
1 |
Oral |
Development of finite volume model of thermo and hydrodynamic of two phase flow with condensation, evaporation, temperature dilation and compressibility of media using OpenFOAM: current state and perspectives |
M.V. Kraposhin,
A.M. Tagirov,
A.V. Yuskin,
S.V. Strizhak |
National Research Center "Kurchatov institute" |
Russia |
2 |
Oral |
Numerical Model of a Surface Fish Collector at Cowlitz Falls Dam |
Santiago Lopez Castaño, Marcela Politano and
Larry Weber |
The University of Iowa |
USA |
3 |
Oral |
Self -Propulsion Simulation of KCS with Dynamic Overset Grids |
Zhirong Shen,
Decheng Wan and
Pablo M. Carrica |
The University of Iowa |
USA |
4 |
Oral |
Simplified fictitious domain method for particulate flow simulation on OpenFOAM |
Ryota Aoki and
Ronald J. Phillips |
Nitto Denko Corporation |
USA |
5 |
Oral |
Modeling of a Stratified Hydroelectric Reservoir with OpenFOAM |
Yushi Wang and
Marcela Politano |
The University of Iowa |
USA |
6 |
Oral |
A Mixed Boundary Condition applied to the Phase Fraction to simulate Moving and Pinning Contact Lines |
N. Linder,
I. V. Roisman. D,
Bothe and C. Tropea |
TU Darmstadt |
Germany |
7 |
Oral |
Numerical simulation of thermocapillary flow in a circular thin concave and convex liquid film under micro-gravity field |
Takuya Yamamoto,
Youhei Takagi,
Yasunori Okano |
Osaka University |
Japan |
8 |
Oral |
Development and validation of a local time stepping solver-based PaSR solver for combustion and radiation modeling |
Kar Mun Pang,
Anders Ivarsson,
Sajjad Haider,
Jesper Schramm |
Technical University of Denmark |
Denmark |
9 |
Oral |
Modelling dynamic liquid-gas systems: Extensions to the volume-of-fluid solver |
Johan A Heyns and
Oliver F Oxtoby and
Ridhwaan Suliman |
Council for Scientific and Industrial Research |
South Africa |
10 |
Oral |
Modelling of multiphase flow using the OpenFOAM® tool set |
Ridhwaan Suliman,
Johan Heyns and
Oliver Oxtoby |
Council for Scientific and Industrial Research |
South Africa |
11 |
Oral |
Rifle Creek Dam DIY Physical Modelling |
Franz Jacobsen |
Engys |
Germany |
12 |
Oral |
A computational study on the circular cylinder at low Reynolds number for feedback control of von Karman vortex Shedding |
Kim, J.H., Lange,
C.F., Koch, C.R. |
Seoul National University |
Korea |
13 |
Oral |
A Finite Volume Method (FVM) solver for non-linear soil stress analysis using OpenFOAM |
Tian Tang,
Ole Hededal and
Johan Roenby |
Technical University of Denmark |
Denmark |
14 |
Oral |
Numerical Simulation of Hypersonic Reentry Flows using DsmcFoam |
Hiroumi Tani,
Naoki Tani, and
Hideyo Negishi |
Japan Aerospace Exploration Agency |
Japan |
15 |
Oral |
Numerical and experimental investigation of a two-phase CO2 ejector |
Christian Lucas,
Juergen Koehler,
Andreas Schroeder and
Henrik Rusche |
Institut für Thermodynamik |
Germany |
16 |
Oral |
Multiphase CFD in Chemical Engineering: Benefit, Advantages of OpenFOAM and Future Needs from BASF's perspective |
Christian Kunkelmann and
Peter Renze |
BASF SE |
Germany |
17 |
Oral |
Development of CFD Solver for Ship and Ocean Engineering Flows |
Zhirong Shen,
Hongjian Cao,
Yuanchuang Liu and
Decheng Wan |
Shanghai Jiao Tong University |
China |
18 |
Oral |
Desynchronized guide vane torque prediction for CFD spiral casing flow simulation using OpenFOAM |
Christophe Devals,
Francois Guibault and
Thi C. Vu |
Ecole Polytechnique de Montreal |
Canada |
19 |
Oral |
Simulation of the liquid film on spinning disks using OpenFOAM |
Bernhard F.W. Gschaider and
Petr Vita |
ICE Strömungsforschung GmbH |
Autria |
20 |
Oral |
Numerical study on the influence of turbulent structure in a channel with wavy-walls on drag reduction |
Masayoshi Nakamoto,
Youhei Takagi and
Yasunori Okano |
Osaka University |
Japan |
21 |
Oral |
3D Numerical Simulation of Turbulent Flows over Hydraulic Structures in Rivers |
Van Thinh Nguyen,
Alexey Matveichev |
Seoul National University |
Korea |
22 |
Oral |
3D Numerical Simulation of Turbulent Flows in Meandering Channels |
Van Thinh Nguyen,
Alexey Matveichev |
Seoul National University |
Korea |
23 |
Oral |
3D Numerical Simulation of Turbulent Flows at Confluence of Channels |
Van Thinh Nguyen |
Seoul National University |
Korea |
24 |
Oral |
Simulation of Flow around a Self-Propelling Ship Hull using OpenFOAM |
Takafumi Kawamura,
Takeharu Fujisawa |
Computational Fluid Dynamics Consulting, Inc |
Japan |
25 |
Oral |
A particle-level fiber model, implemented in OpenFOAM® |
Jelena Andrić,
Stefan B. Lindström,
Srdjan Sacic, and
Håkan Nilsson |
Chalmers University of Technology |
Sweden |
26 |
Oral |
A multi-scale approach for modeling cavitation on hydrofoils, implemented in OpenFOAM® |
Aurelia Vallier,
Johan Revstedt and
Håkan Nilsson |
Lund University |
Sweden |
27 |
Oral |
Electrohydrodynamics Simulations of Nano Scale, High Frequency Droplet Injection |
Vinh-Tan Nguyen and
Jing Lou |
Agency for Science, Technology and Research (ASTAR) |
Singapore |
28 |
Oral |
Three-dimensional simulation of hydrothermal wave |
Youhei Takagi,
Takuya Yamamoto and
Yasunori Okano |
Osaka University |
Japan |
29 |
Oral |
Linear Thermoacoustic Riemann Solver with Application to Turbulent Premixed Gas Turbine Combustion Instability |
Perry Johnson,
Hrvoje Jasak,
Jared Pent, and
Enrique Portillo |
Siemens Energy Inc |
USA |
30 |
Oral |
Implementation and Numerical Stabilisation of Adjoint Flow and Turbulence Model in OpenFOAM |
Hrvoje Jasak,
Nikola Lisjak |
Wikki Ltd |
UK |
31 |
Oral |
IHFOAM: New Insights in Coastal and Offshore Engineering Simulations with OpenFOAM® |
Pablo Higuera ,
Javier L. Lara and
Inigo J. Losada |
Universidad de Cantabria |
Spain |
32 |
Oral |
Oxyfuel Coal Flame Simulation to Evaluate the Effect of Boudouard Reaction on Coal Char Combustion |
Dominik Christ |
Wikki Ltd |
UK |
33 |
Oral |
The NavalHydro-Pack and its Application in the Simulation of Ship Hydrodynamics |
Dominik Christ |
Wikki Ltd |
UK |
34 |
Oral |
Numerical simulation of wave induced motion of a floating body |
Heebum Lee and
Shin Hyung Rhee |
Seoul National University |
Korea |
35 |
Oral |
Performance prediction of a tilted vertical axis wind turbine |
Abdullah Mobin Chowdhury and
Hiromichi Akimoto |
KAIST |
Korea |
36 |
Oral |
Development and Validation of a Hybrid Solver for locally rarefied gas flows |
Henrik Rusche,
Sarantis Pantazis |
Wikki GmbH |
Germany |
37 |
Oral |
Simulation of the Acoustic Wave Propagation in Steel Components |
Henrik Rusche,
Pavel Kodet,
Markus Rehm |
Wikki GmbH |
Germany |
38 |
Oral |
Cabin-Bay Multi-Domain Simulations with Improved Aerothermal Boundary Conditions |
Suraj Thulkar,
Mita Sarkar,
Henrik Rusche,
Michel Fouquembergh, Guillaume Alleon |
EADS Innovation Works |
India |
39 |
Oral |
Numerical simulation of the cavitating flow around a hydrofoil using a density-based flow solver with a barotropic equation of state |
Christian Deimel,
Marius Kimoto and
Romuald Skoda |
Ruhr-Universität Bochum |
Germany |
40 |
Oral |
Dynamic flow behavior of a rectangular bubble column |
Gerhard Holzinger and
Stefan Pirker |
Christian Doppler Laboratory for particulate flows |
Austria |
41 |
Oral |
DecomposeZoltan: a new tool for parallel domain decomposition with OpenFOAM |
Martin Beaudoin |
Hydro-Québec Research Institute |
Canada |
42 |
Oral |
Implementation of a Model for Electroplating in OpenFOAM® |
Tsutomu Takayama and Masakazu Yoneda |
Mizuho Information and Research Institute |
Japan |
43 |
Oral |
Blood Flow in Realistic Neonatal Aorta using Open Source Software OpenFOAM |
Senol Piskin,
Onur Dur and
Kerem Pekkan |
Koc University |
Turkiye |
44 |
Oral |
Implementation of Compressible Explicit Algebraic Reynolds Stress Model(C -EARSM) |
Geon-Hong Kim and
Seung O Park |
KAIST |
Korea |
45 |
Oral |
OpenFOAM® Verification and Validation Cases Maintained by the Open CAE Society of Japan |
Masashi Imano,
Takuya Oshima,
Takamasa Hasama,
Takahiro Shibata and
Shinya Ogata |
OCAEL Co. Ltd. |
Japan |
46 |
Oral |
Implementation of RIF Model into OpenFOAM |
Ki-Young Jung,
Yongmo Kim and
Gun-Hong Kim |
Hanyang University |
Korea |
47 |
Oral |
DQMOM-based PDF Transport Modeling for
Turbulent Lifted Flame with Autoignition |
Gun-Hong Kim, Sangtae Jeon, Jeongwon Lee and
Yongmo Kim |
KWEnC |
Korea |
48 |
Oral |
LES-based Flamelet Modeling for Instabilities of
Turbulent Swirling Isothermal and Reacting Flows |
Kyung-Taek Oh,
Gun-Hong Kim,
Youngjun Shin and
Yongmo Kim |
KWEnC |
Korea |
49 |
Oral |
Development progress on HELYX-OS, the Open Source GUI for OpenFOAM® |
Francisco Campos,
Paolo Geremia and
Stefano Valeri |
ENGYS LTD |
UK |
50 |
Oral |
Wind tunnel validation of Detached Eddy Simulation for vehicle external aerodynamics |
Angus Lock,
Paolo Geremia and
Eugene de Villiers |
AUTO RESEARCH CENTER |
USA |
51 |
Oral |
Development of Automatic Package for Prediction of Ship Resistance |
Gwangho Oh,
Hyun Seok Roh and
Byoung Yun Kim |
NEXTfoam Co., Ltd |
Korea |
52 |
Oral |
Simulation of OECD/NRC PSBT 1.2211 subcooled nucleate boiling benchmark with an OpenFOAM based solver |
Juho Peltola and
Timo Pättikangas |
VTT Technical Research Centre of Finland |
Finland |
53 |
Oral |
Gas-Solid Bubbling Fluidized Bed Simulations with
compressibleTwoPhaseEulerFoam |
Timo Niemi and
Juho Peltola |
VTT Technical Research Centre of Finland |
Finland |
54 |
Oral |
Implementation of OpenFOAM for Prediction of Wind Force Acting on Car Carrier Vessels |
Takehiro Ikeda and
Koyu Kimura |
Akishima Laboratories (Mitsui Zosen) Inc. |
Japan |
55 |
Oral |
Application and Validation of OpenFOAM for Natural Convection Heat Transfer of a Pool with Volumetric Heat |
Jongtae Kim,
Seong-Wan Hong and
JinHo Song |
Korea Atomic energy Research Institute |
Korea |
56 |
Oral |
Level-set based topology optimization using adjoint CFD |
Georgios Karpouzas and Eugene de Villiers |
Engys Ltd |
UK |
57 |
Oral |
MAAT: CFD based airship aerodynamic optimization and docking |
Paolo Geremia,
Fancisco Campos,
Andrew Jackson and
Eugene de Villiers |
Engys Ltd |
UK |
58 |
Oral |
Multicomponent mass transfer in the compressible flow of semi-continuous mixtures using adaptive characterization method |
Livia Flavia Carletti Jatob´a,
Paulo Laranjeira da Cunha Lage, and
Luiz Fernando Lopes Rodrigues Silva |
Universidade Federal do Rio de Janeiro |
Brazil |
59 |
Oral |
Implementation of a Steady Laminar Flamelet Model for nonpremixed combustion in LES and RANS simulations |
Hagen Müller,
Federica Ferraro,
Michael Pfitzner |
University of the federal armed Forces Munich |
Germany |
60 |
Oral |
Development of a novel pressure-based coupled CFD solver for turbulent compressible flows for internal and external aerodynamics |
Luca Mangani and
Marwan Darwish |
Lucerne University |
Switzerland |
61 |
Oral |
Towards Numerical Simulation of Turbulent Hydrogen Combustion based on Flamelet Generated Manifolds |
Alessio Fancello,
R.J.M. Bastiaans and
L.P.H. de Goey |
Eindhoven University of Technology |
Netherlands |
62 |
Oral |
Accelerating OpenFOAM with Parallel GPU Linear Solver |
Alexander Monakov and Vladimir Platonov |
Institute for System Programming of Russian Academy of Sciences |
Russia |
63 |
Oral |
A pressure-based block-coupled finite volume algorithm for the solution of steady incompressible turbulent flows |
Luca Mangani,
Marwan Darwish,
Dan Combest and
Eugene de Villiers |
HSLU University |
Switzerland |
64 |
Oral |
Development of Coal Combustion Libraries based on Structural Behavior of the Particle |
Karam Han and
Kang Y. Huh |
Pohang University of Science and Technology |
Korea |
65 |
Oral |
The CoCoons Project
Community-driven Documentation of OpenFOAM® Technology |
Holger Marschall |
Technische Universität Darmstadt |
Germany |
66 |
Oral |
A 3D geometrical Volume of Fluid method on unstructured meshes using OpenFOAM |
Tomislav Marić,
Holger Marschall,
Dieter Bothe |
Technische Universität Darmstadt |
Germany |
67 |
Oral |
Direct Numerical Simulation of Droplet Formation Processes under the Influence of Multiple Surfactants |
Kathrin Dieter-Kissling,
Holger Marschall,
Dieter Bothe |
Technische Universität Darmstadt |
Germany |
68 |
Oral |
Numerical simulation for multilayer co-extruion dies in the single screw extrusion process using OpenFOAM® |
Sang Ho Mun,
Jun ho Mun,
Ju Hyeon Kim,
See Jo Kim |
Andong National University |
Korea |
69 |
Oral |
Using the Ciespace Open Cloud Platform: A Case Study with Moving Meshes in OpenFOAM® |
Sanjay Choudhry |
Ciespace Corporation |
Canada |
70 |
Oral |
OpenFOAM Solver Verification |
Harold Noriega,
Robert Magnan,
Paul Labbé, and
François Guibault |
École Polytechnique de Montréal |
Canada |
71 |
Oral |
Prediction of Cooling Air Flow in Electric Generators,
using OpenFOAM® |
Pirooz Moradnia and
Håkan Nilsson |
Chalmers University of Technology |
Sweden |
72 |
Oral |
Numerical simulation of flow around self-propelling KCS |
Sunho Park,
Dong Hwan Kim,
Shin Hyung Rhee |
NEXTfoam Co., Ltd |
Korea |
73 |
Oral |
Development and validation of a density-based implicit solver using LU-SGS algorithm |
Jae Heung Gill,
Byoung Yun Kim,
Gi Hong Kim,
Hun Beom Shin,
Seong Ki Jung,
Gyu Hong Kim |
NEXTfoam Co., Ltd |
Korea |
1 |
Poster |
Asynchronous pipeline optimization of periodical file write in OpenFOAM |
Xiaoguang Ren,
Yuhua Tang,
Xinhai Xu |
National University of Defense Technology |
China |
2 |
Poster |
Simulation of High-Re Turbulent Flows Using the Immersed Boundary Method on Unstructured Polyhedral Meshes |
Hrvoje Jasak,
Zeljko Tukovic |
Wikki Ltd |
UK |
3 |
Poster |
Multidimensional Flow Analysis of Oxidizer Manifold for Rocket Engine Thrust Chamber |
Miok Joh,
Sang Hoon Han,
Seong-Ku Kim and
Hwan-Seok Choi |
Korea Aerospace Research Institute |
Korea |
4 |
Poster |
Implementation of the detailed chemistry and variable transport properties for simulating laminar chemically reacting flows |
Gun-Hong Kim,
Ki-Young Jung and
Yongmo Kim |
KWEnC |
Korea |
5 |
Poster |
SIMULATION OF UNSTEADY FLOW ACTUATION PRODUCED BY SURFACE PLASMA ACTUATOR ON 2-D AIRFOIL |
Phan Minh Khang and
Jichul Shin |
Ulsan University |
Korea |
6 |
Poster |
Rotor Performance Analysis in the Small Surrounded Space |
Taewoo Kim,
Sejong Oh and
Kwanjung Yee |
Pusan National University |
Korea |
7 |
Poster |
Use of OpenFOAM for Evaluation of Hydrogen Safety in a Nuclear Power Plant |
Jongtae Kim,
Sang-Baik Kim,
Seong-Wan Hong and
Gun Hong Kim |
Korea Atomic energy Research Institute |
Korea |
8 |
Poster |
Numerical simulation for extrusion dies in the single screw extrusion process using OpenFOAM® |
Jun Ho Mun,
Sang Ho Mun,
Hyun jik Kwon,
Tae gu Kim,
Hee sam Kim,
See Jo Kim |
Andong National University |
Korea |
|
Poster |
LES-based Flamelet Modeling for Instabilities of Turbulent Swirling Isothermal and Reacting Flows |
Kyung-Taek Oh, Gun-Hong Kim, Youngjun Shin and Yongmo Kim |
KWEnC |
Korea |
|
Poster |
Numerical simulation for extrusion dies in the single screw extrusion process using OpenFOAM® |
Jun Ho Mun, Sang Ho Mun, Hyun jik Kwon, Tae gu Kim, Hee sam Kim, See Jo Kim |
Andong National University |
Korea |
|
Poster |
Applicability Investigation for 3-D Numerical Simulation of Dam Spillway using OpenFOAM® |
Byongjun Park, Byoung Yun Kim |
Rural Research Institute |
Korea |
|
Poster |
3-D Numerical Simulation of Flow on the Piano Key Weir for Evaluating Flow Rates using OpenFOAM® |
Byongjun Park, Byoung Yun Kim |
Rural Research Institute |
Korea |
|
|