Time |
Speaker |
Company |
Title |
Abstract |
Presentation |
09:00 |
J. Mueller |
Queen Mary, University of London, UK |
The FP7 FlowHead project: Fluid Optimisation Workflows for Highly Effective Automotive Development Processes |
|
|
09:10 |
C. Othmer(1), M. Albertelli (2) |
(1) Volkswagen AG, DE; (2) Renault SA, FR; |
Industrial fluid flow optimisation in the automotive industry. |
|
|
09:30 |
G. Pierrot |
ESI Group, France |
A discrete adjoint solver for shape optimization within the commercial CFD-ACE+ software suite |
|
|
10:00 |
J. Mueller, D. Jones, W. Jahn, S. Xu |
Queen Mary, University of London, UK |
Discrete adjoint solvers for industrial design optimisation |
|
|
10:30 |
Coffee Break |
11:00 |
A. Naumovich |
Deutsches Zentrum fuer Luft und Raumfahrt, Braunschweig, DE |
Algebraic multigrid for solution of adjoint equations in compressible aerodynamics |
|
|
11:50 |
J. Brezillon |
Deutsches Zentrum fuer Luft und Raumfahrt, Braunschweig, DE |
State of the art at DLR in solving aerodynamic shape optimization problems using the discrete viscous adjoint method |
|
|
12:20 |
A. Jaworski, L. Llaniewski, J. Rokicki |
Warsaw University of Technology |
One-shot optimisation with grid adaptation using adjoint sensitivities |
|
|
12:50 |
Lunch Break |
13:50 |
U. Naumann |
RWTH Aachen, DE |
Toward First- and Higher-Order Discrete Adjoint Flow Solvers |
|
|
14:40 |
F. Christakopoulos, J. Mueller |
Queen Mary, University of London, UK |
Discrete adjoint solvers for second derivatives |
|
|
15:10 |
J. Peter, P. Trontin, F. Renac, A. Dumont |
ONERA Chatillon, FR |
Improving accuracy and robustness of a discrete adjoint method for aerodynamical shape optimization |
|
|
15:40 |
Coffee Break |
16:10 |
K.C. Giannakoglou |
National Technical University of Athens, Greece |
Development and application of continous adjoint methods |
|
|
17:00 |
S. Petropoulou |
ICONCFD, London, UK |
Adjoint Solver advances, tailored to automotive applications |
|
|
17:30 |
M.M. Gregersen, A. Evgrafov and M.P. Sørensen |
Technical University of Denmark, Kgs Lynby, DK |
Finite Volume Based Topology Optimization of Coupled Fluid Dynamic and Thermal Conduction System |
|
|
18:00 |
M. Towara, U. Naumann |
RWTH Aachen, DE |
Numerical Optimization of a Intake Duct with Adjoint Topological Methods |
|
|
18:30 |
End of Day 1 |
Time |
Speaker |
Company |
Title |
Abstract |
Presentation |
08:45 |
K. Kamberov, G. Todorov |
Technical University, Sofia, BG |
Interfacing of optimisation workflows with the product development process |
|
|
09:15 |
E. Stavropoulou, M. Hojjat, K.-U. Bletzinger |
Technische Universitaet Muenchen, DE |
Regularization methods for CFD shape optimization problems using parameter-free approach |
|
|
09:45 |
M. Boehm, T. Schuetzle, N. Stoppelkamp |
FE-Design, Karlsruhe, Germany |
Workflow example for non-parametric sensitivity-based iterative topology and and shape optimization loops |
|
|
10:15 |
P.M. Thompson, T.T. Robinson, C.G. Armstrong |
Queen’s University of Belfast, UK |
Linking CAD design sensitivities with adjoint CFD data |
|
|
10:45 |
Coffee Break |
11:05 |
R. Löhner |
George Mason University, Washington, USA |
Adjoint design optimisation |
|
|
11:55 |
N. Gauger |
RWTH Aachen, DE |
Optimal Unsteady Flow Control and One-Shot Aerodynamic Shape Optimization using AD |
|
|
12:25 |
E. de Villiers |
Engys Ltd, UK |
Multi-objective adjoint optimisation of intake port geometry |
|
|
12:55 |
Lunch Break |
14:00 |
R. Dwight |
Technical University Delft, NL |
Discrete Adjoint Methods and Applications: Beyond Optimization |
|
|
14:50 |
S. Tokuda |
Toyota, JP |
Application of the Discrete Adjoint Method to Practical Components |
|
|
15:20 |
C. Othmer |
Volkswagen AG, Wolfsburg, DE |
Adjoint Methods for Automotive Design: Requirements, Achievements and Future Challenges |
|
|
16:10 |
End of Conference |