@Article{CAM-3-8, author = {}, title = {工程和科学中的Mesoscopic方法第三届国际会议将在美国召开}, journal = {CAM-Net Digest}, year = {2006}, volume = {3}, number = {8}, pages = {3--3}, abstract = {
The 3rd International Conference on Mesoscopic Methods
in Engineering & Science (ICMMES)
July 24-28, 2006, Hampton, Virginia, USA,
http://www.icmmes.org.
The 3rd International Conference on Mesoscopic Methods in Engineering &Science (ICMMES-06, http://www.icmmes.org) will be held at RadissonHotel Hampton, Virginia, USA, in July 24-28, 2006. The focus of theConference series is mesoscopic/kinetic methods (e.g., LBE, LGA, DPD, DVM, GKS, and SPH) for computational mechanics in its broadestsense. Specific areas include, but are not limited to, mesoscopic / kinetic methods applied for:
1. Computational Fluid Dynamics (CFD), including Direct NumericalSimulations (DNS), Large-Eddy Simulations (LES), and macroscopic as wellas kinetic turbulence modelling;
2. Rheology for complex fluids, such as suspensions, multi-phase and multi-component fluids, non-Newtonian fluids, electro-rheological (ER)and magneto-rheological (MR) fluids (smart fluids) and bio-fluids;
3. Nano-scale phenomena involving non-continuum, surface-dominated, low-Reynolds-number, non-Newtonian, multi-scale and multi-physics effects;
4. Computational mechanics of solids and structures;
5. Computational multi-physics dynamics, such as flow-structure interactions;
6. Algorithms for High Performance Computing (HPC) engineering applications.
The objectives of the Conferences are:
1. To bring together researchers and practitioners from academia,research institutions and industry to exchange experiences, disseminate up-to-date information, and explore new opportunities in the field;
2. To expose young or new researchers to the state of the art in the field, by means of, in addition to the Conferences, short courses and the internet media;
3. To play a leading role in reseach and development in the field.
The conference will focus on computational methods for challenging engineering problems based on mesoscopic methods, including (but not limited to) the lattice Boltzmann equation (LBE), lattice-gas cellular automata (LGCA), discrete velocity models (DVM), gas-kinetic schemes (GKS), dissipative particle dynamics (DPD), and smooth-particle hydrodynamics (SPH).
For more details, please go to the ICMMES website:
http://www.icmmes.org.
ICMMES Scientific Committee:
Prof. John Abraham
School of Mechanical Engineering
Purdue University, USA
Prof. Ali Beskok
Department of Mechanical Engineering
Texas A&M University, USA
Dr. Jos J. Derksen
Kramers Laboratorium voor Fysische Technologie
Technical University of Delft, The Netherlands
Prof. Franz Durst
Institute of Fluid Mechanics (LSTM)
University of Erlangen, Germany
Prof. Sharath Girimaji
Department of Aerospace Engineering
Texas A&M University, USA
Prof. Michael Junk
Fachbereich Mathematik und Statistik
University of Konstanz, Germany
Prof. Axel Klar
FB Mathematik
Technical University of Kaiserslautern, Germany
Prof. Manfred Krafczyk, Co-Chairman
Institute for Computer Applications in Civil Engineering (CAB)
Technical University of Braunschweig, Germany
Prof. Anthony J.C. Ladd
Department of Chemical Engineering
University of Florida, USA
Prof. Pierre Lallemand
ASCI Laboratory
Universit?Paris Sud, France
Prof. Li-Shi Luo, Co-Chairman
Department of Mathematics and Statistics
Old Dominion University, USA
Prof. Dimitri Mavriplis
Department of Mechanical Engineering
University of Wyoming, USA
Prof. Taku Ohwada
Department of Aeronautics and Astronautics
Kyoto University, Japan