Technical Library

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Name Author(s) Datesort descending
Overview & Perspectives for Internal Combustion Engine using STAR-CD Marc Zellat
Multiphase flow II (Applications & Theoretical background of DEM) Prof. Simon Lo
Shape Optimization of a Top Entry Mixer - A Case Study using CAESES / STAR-CCM+ Mike Saroch
Application of Direct Quadrature Method of Moments in Multiphase Flows using STAR-CCM+ John Parra-Alvarez
Computational Fluid Dynamics for Reactor Design & Safety-Related Applications Emilio Baglietto
0D/1D after-treatment modeling with DARS Fabian Mauss
Simulation of Particulate Solids Processing using Discrete Element Method Oleh Baran
Meeting the Challenges of Fluid-Structure Interaction Alan Mueller
Design & Evaluation of a Passive Micromixer with Curved Shape Obstacles & Grooves in the Mixing Channel Cesar Augusto Cortes-Quiroz, Mark Tracey
Overview & Perspectives for Internal Combustion Engine using STAR-CD Mark Zellat
Kopplung von DEM und CFD zur Simulation von Festbettreaktoren für stark exotherme Reaktionen Kevin Seidler, Thomas Eppinger
Multiphase Flow Models in STAR-CCM+ Simon Lo
Reacting Flow Modeling in STAR-CCM+ Rajesh Rawat
Spatially Resolved Simulations of Heterogeneous Dry Reforming of Methane in Fixed-Bed Reactors Thomas Eppinger (CD-adapco) Matthias Kraume (Technische Universität Berlin)
DARS SRM as Combustion Model for Engine Concept Development Arne Andersson
Discrete Element Method in STAR-CCM+ Oleh Baran
After treatment :SCR modeling using STAR-CCM+ Richard Johns
Application of DEM Model of STAR-CCM+ for Granular Flow Through a Pipe 加藤 丈侍様
Discrete Element Method (DEM) in STAR-CCM+ Oleh Baran
Glass Bottle Forming Process Modeled in STAR-CCM+ Simone Ferrari, Marcello Ostorero
Silver Sponsor Presentation SIMULIA Clive Ford
Integrierte 3D-Strömungssimulation in der Gebäudetechnik und im Brandschutz Erwin Schnell
Advanced Applications of STAR-CCM+ in Chemical Process Industry Ravindra Aglave
Aspects of Industrial Flow Prediction using LES David Gosman
Advanced Applications of STAR-CCM+ in Chemical Process Industry Ravindra Aglave
Modeling Chemical Reactions in CFD
In-Cylinder Engine Calculations: New Features & Upcoming Capabilities Richard Johns
Emulating the Direct Blister Furnace Process with Coal Combustion Bennie Henning
Better Reactors Grow from Better Simulations Emilio Baglietto
New features of STAR-CCM+7.02 Jun Ho Choi
Shape Optimization of a Top Entry Mixer - A Case Study using CAESES / STAR-CCM+ Mike Saroch
Modelling Multiphase Flows in the Chemical and Process Industry Simon Lo
Key STAR Technologies: Dispersed Multiphase Flow & Liquid Film Modeling David Gosman
Best Practice: Multiphase Flows Xiao Hu
Multiphase Flow Models in STAR-CCM+ Simon Lo
Using STAR-CCM+ for Research & Teaching at the Chair of Chemical & Process Engineering Matthias Kraume, Gregor Wehinger, Thomas Eppinger
Key STAR Technologies: Dispersed Multiphase Flow & Liquid Film Modeling David Gosman
Modeling an Axisymmetric Perforated Brick Catalyst Ahmad Mat Yamin
Reacting Flow Applications in STAR-CCM+ Rajesh Rawat
Multiphase flow I (Eulerian two phase flow and Boiling) Prof. Simon Lo
Spatially Resolved Simulations of Heterogeneous Dry Reforming of Methane in Fixed-Bed Reactors Thomas Eppinger (CD-adapco), Matthias Kraume (Technische Universität Berlin)
STAR-CCM+ in the Process Industry Mark Farrall
Multi-Fuel Combustion & Detailed Chemistry Reaction Models Rajesh Rawat
Integrating STAR-CCM+ with a Systems Analysis Code for Nuclear Reactor Safety Simulations Justin W. Thomas
Reacting Flow Applications in STAR-CCM+ Rajesh Rawat
Modeling industrial multiphase flows with STAR-CCM+ Simon Lo, Dominik Kubicki
CD-adapco's vision of STAR-CCM+ in Chemical Industry Ravindra Aglave
Multiphase Flow Models in STAR-CCM+ Simon Lo
Examining the Cost Return Ratio for CFD in the Gas, Oil and Chemical Industries Mike Porter, President
Application of computational fluid dynamics to spray drying Simon LO July 5, 2005

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