CFD-based Optimization for a Complete Industrial Process: Papermaking

Development of tailored software tools based on coupling of Computational Fluid Dynamics (CFD) with optimization is presented in this paper. In papermaking, industrial applications deal with fluid dynamics at the wet-end of a paper machine as well as in the entire papermaking process.

[1]  J. Haslinger,et al.  Finite Element Approximation for Optimal Shape, Material and Topology Design , 1996 .

[2]  Raino A. E. Mäkinen,et al.  Optimal design of paper machine headboxes , 2000 .

[3]  T. Hughes,et al.  Streamline upwind/Petrov-Galerkin formulations for convection dominated flows with particular emphasis on the incompressible Navier-Stokes equations , 1990 .

[4]  John R. Birge,et al.  Introduction to Stochastic Programming , 1997 .

[5]  P. Tarvainen,et al.  CFD-optimized headbox flows: The application shows promise for headbox R&D , 2002 .

[6]  Christopher A. Mattson,et al.  Pareto Frontier Based Concept Selection Under Uncertainty, with Visualization , 2005 .

[7]  Kaisa Miettinen,et al.  Synchronous approach in interactive multiobjective optimization , 2006, Eur. J. Oper. Res..

[8]  M. Seetharama Gowda,et al.  Inverse and implicit function theorems for H-differentiable and semismooth functions , 2004, Optim. Methods Softw..

[9]  R. S. Laundy,et al.  Multiple Criteria Optimisation: Theory, Computation and Application , 1989 .

[10]  Michael S. Eldred,et al.  Perspectives on optimization under uncertainty: Algorithms and applications. , 2004 .

[11]  Kalyanmoy Deb,et al.  Multi-objective optimization using evolutionary algorithms , 2001, Wiley-Interscience series in systems and optimization.

[12]  Kaisa Miettinen,et al.  On scalarizing functions in multiobjective optimization , 2002, OR Spectr..

[13]  Kaisa Miettinen,et al.  Nonlinear multiobjective optimization , 1998, International series in operations research and management science.

[14]  Elina Madetoja,et al.  Multiobjective process line optimization under uncertainty applied to papermaking , 2008 .

[15]  L. Franca,et al.  Stabilized finite element methods. II: The incompressible Navier-Stokes equations , 1992 .

[16]  L. Franca,et al.  Stabilized Finite Element Methods , 1993 .

[17]  Elina Madetoja,et al.  A decision support system for paper making based on simulation and optimization , 2007, Engineering with Computers.

[18]  L. Quartapelle The incompressible Navier—Stokes equations , 1993 .

[19]  Hiroshi Furuya,et al.  Robust structural optimization of plate wing corresponding to bifurcation in higher mode flutter , 2005 .

[20]  O. Pironneau Optimal Shape Design for Elliptic Systems , 1983 .

[21]  Xiaoping Du,et al.  The use of metamodeling techniques for optimization under uncertainty , 2001 .

[22]  J. Hadamard,et al.  Leçons sur le calcul des variations , 1910 .

[23]  S. Azarm,et al.  Multi-objective robust optimization using a sensitivity region concept , 2005 .

[24]  A.M.O. Smith,et al.  Turbulence models and their application in hydraulics: W. Rodi, University of Karlsruhe, International Association for Hydraulic Research, Rotterdamseweg 185, 2600 MH Delft, The Netherlands , 1981 .

[25]  Elina Madetoja,et al.  On sensitivity analysis of nonsmooth multidisciplinary optimization problems in engineering process line applications , 2006 .