Industrial Computational Fluid Dynamics - hardcover - VKI LS 2017-05

Progress achieved in the modeling of thermohydraulic phenomena and in the development of robust and efficient numerical techniques makes the application of the computational approach to the investigation of complex flows in situations of industrial interest feasible. This lecture Series presents the state-of-the-art of computational solutions to industrial fluid dynamics problems.

The first session is devoted to an introductory overview of industrial CFD. Basic lectures describe the efficient and robust schemes/methods, which can be used for a range of flows from incompressible and low speed to high speed and for steady and unsteady problems. Emphasis is given to turbulence modeling and its effect on the simulation. Additional sessions specifically address practical applications and the issue of the practicability of the technology by presenting results of industrial simulations.

By its nature and content, the course is addressed to all industrial users and research laboratories which are interested in acquiring and/or developing a predictive capability in the domain of fluid flow problems, as well as to researchers interested in the application of CFD to solving practical problems in an industrial context.

The Lecture Series director are J.-M. Buchlin and Ph. Planquart of the von Karman Institute for Fluid Dynamics.

• HIRSCH, C. – Vrije Universiteit Brussel & NUMECA, Belgium
  State of the art of industrial CFD
• IACOVIDES, H. – The University of Manchester, United Kingdom
  Different approaches for turbulence modelling – Part I
Different approaches for turbulence modelling – Part II
• DECONINCK, H.¹ & DE MULDER, T.² – ¹von Karman Institute for Fluid Dynamics & ²University of Gent, Belgium
  Introduction to discretization methods for computational fluid dynamics
• LYCETT-BROWN, D.; DELBOSC, N.; HOLMAN, D.M. – Dassault Systèmes, Spain
  Lattice Boltzmann method – Part I: Introduction to multiphase
• LYCETT-BROWN, D.; DELBOSC, N.; HOLMAN, D.M. – Dassault Systèmes, Spain
  Lattice Boltzmann method – Part II: Algorithms and applications
• VINCENT, S. – Paris-Est Marne-La-Vallée University, France
  Industrial multiscale simulations
• FOX, R.O. – Iowa State University, USA
  Multiscale modeling in computational fluid dynamics
• FOX, R.O. – Iowa State University, USA
  Application to fine particles, bubbly flows and gas-particle flows
• LAKEHAL, D. – ASCOMP & ETH Zürich, Switzerland
  Computational turbulent multiphase flows – Part I
• LAKEHAL, D. – ASCOMP & ETH Zürich, Switzerland
  Computational turbulent multiphase flows – Part II