Week end course on CFD (ANSYS FLUENT,CFX and ICEMCFD HEXA),From 15 th August 2015
Course, Niharika Institute of Computational Engineering, Indiranagar ,Bangalore, India, August 15, 2015
8 weeks course on CFD covering theory,ANSYS
FLUENT,ANSYS CFX and ANSYS ICEMCFD (HEXA)
softwares.Class timings, 9.30 AM to 2 PM on Saturday and Sunday.
One month course on CFD (ANSYS FLUENT,CFX and ICEMCFD HEXA),From 02 nd September 2015
Course, Niharika Institute of Computational Engineering, Indiranagar ,Bangalore, India, September 2, 2015
One month course on CFD covering theory,ANSYS
FLUENT,ANSYS CFX and ANSYS ICEMCFD (HEXA)
softwares.Class duration: 3 hours per day (Monday to
Friday), 3 Pm to 5.30 PM on Saturday and Sunday
Advanced Methods in Computational Fluid Dynamics
Course, School of MACE, The University of Manchester, Manchester, United Kingdom, September 7, 2015
The course consists of two parts: theoretical course on
advanced CFD approaches and tutorials with open-source
solver Code_Saturne. The main focus of the first part will
be on RANS models, LES and DNS for turbulent flows,
fluid-structure interaction methods, compressible flows and
aeroacoustics. The second part of the course will be held at
the Science & Technology Facilities Council (STFC) and is
devoted to learning the use of open-source CFD solver
Reliability Training: Effective FMEA Seminar Series
Course, Stockport, United Kingdom, September 7, 2015
The Effective FMEA Seminar Series is composed of two
course sessions, taught over five days. Although you can
register for each session individually, we recommend that
new students start with the full five-day package. D470A
“Foundations of Effective FMEAs” is a prerequisite for
D470B “FMEA Facilitation and Application Skills.”
OpenFOAM Introductory Course
Course, Via Montallegro 1, Genova, Italy, September 7, 2015
The training course is aimed to those with little or no
experience in the use of OpenFOAM, or for those who want to
improve their skills using OpenFOAM as a general-purpose CFD
and Multiphysics solver as well as other meshing and
post-processing Open Source tools.
ERCOFTAC-CFD for Dispersed Multiphase Flows, 1-2 October 2015, Imperial College, London, UK
Course, Imperial College, London, United Kingdom, October 1, 2015
This course is rather unique as it is one of few in the
community that is specifically designed to deliver, a) a
best practice guidance and b) the latest trends, in CFD for
dispersed multi-phase flows.
The course appeals to researchers and engineers involved in
projects requiring CFD for (wall-bounded) turbulent
dispersed multiphase flows with bubbles, drops or particles.
Moreover, delegates are offered the opportunity to present
their work via 10 minute presentations.
ERCOFTAC - Lattice-Boltzmann Methods for Ind. Apps: Overview, Guidance & Examples, 19-20 October 2015, Marseille,France
Course, Aix-Marseille Universite, Marseille, France, October 19, 2015
Lattice-Boltzmann Methods (LBM) became recently a very
powerful tool for engineering in Computational FLuid
Dynamics. They represent a very efficicent competitor to
Mavier-Stokesbased Tools. This course aim at presenting the
fundamental of LBM(day 1) and state-of-the-art applications
for engineering problems issued from major industrial
companies(Airbus, Renautl,...) Examples will illustrate
application in different fields: aerodynamics, acoustics,
and heat transfer
ERCOFTAC Best Practice for Eng CFD
Course, GE, Munich, Germany, October 22, 2015
This course is targeted at relatively new and improving CFD
analysts in engineering industries and consultancies.
It provides the knowledge to effect a step-change in the
accuracy and reliability of CFD practices across a range of
engineering applications relevant to the power generation,
aerospace, automotive, built environment and turbomachinery
sectors - amongst others.
ERCOFTAC - Best Practices in Combustion CFD, Flame Stabilization, & Combustion Instabilities 3-4 Nov 2015, Delft, Netherlands
Course, TU Delft, Netherlands, November 3, 2015
Design and operation of modern combustion systems
requirements are high efficiency, low emissions & good flame
stability. CFD has become a powerful tool in design and
analysis , but it is not a unique modeling method. Many
models are available each having a range of applicability,
computational cost and accuracy. Thus, CFD experts doing
turbulent combustion simulations, in addition to std CFD
skills, need skills in combustion modeling for correct
analysis. This course addresses this need.
ERCOFTAC-Hybrid RANS-LES Methods for Industrial CFD:Overview, Guidance and Examples
Course, ANSYS, Otterfing, Germany, November 9, 2015
An overview of turbulence modelling.
A firm foundation in the theory and ideas underlying, RANS,
LES and Hybrid RANS-LES techniques.
Recommendation and guidance for the appropriate and
effective application of Hybrid RANS-LES.
Examples from real-world engineering simulations, using the
DES class of models.
Unsteady Simulations for Industrial Flows: LES, DES, hybrid LES-RANS and URANS
Course, Chalmers University of Technology, Gothenburg, Sweden, November 9, 2015
A three-day course in
''Large Eddy Simulation (LES), hybrid LES-RANS, Detached
Eddy Simulation (DES) and unsteady RANS''
is given at Chalmers, Gothenburg, Sweden, 9-11 November, 2015.
ERCOFTAC-Uncertainty Management and Quantification in Industrial Design and Analysis, 30 Nov. - 1 Dec 2015, EDF, Paris, France
Course, EDF, PARIS, France, November 30, 2015
The aim is to share the aspirations and requirements of
leading companies in the fields of aerospace, energy,
Marine, F1, and chemical process; review emerging methods
and techniques and how these are being deployed; and define
the current state-of-the-art and map out-near term future