References

This is a continuation of the Process Intensifier - Optimization with CFD: Part 1 paper.

The designs of commercially available Process Intensifiers were taken from the Internet and company brochures. The references are:

• Lightnin Line Blender: http://www.lightnin-mixers.com/new/registration.asp and look for articles # 12, 134, 136, and 140 and http://206.231.19.145/broc.nsf/ and look for brochure # B-528 or http://www.lightnin-mixers.com/new/products.asp and click on Brochures or Brochure Ref. # B-528C-9M-02-94, Published by Greey LIGHTNIN Canada A Unit Of General Signal ·
• Hayward Gordon In-Line Mixer: http://www.haywardgordon.com/mixers/inline.htm and http://www.haywardgordon.com/articles/Mixer_dynamic_inline_article.htm

Fisher Control Valve Handbook Second Edition Fourth Printing, Published by Fisher Controls International, Inc. 1965, 1977

Hughes, T.J.R., L.P. Franca, G.M. Hulbert, "A new finite element formulation for computational fluid dynamics: VIII The Galerkin/least squares method for advective-diffusive equations", Comp. Methods Appl. Mech. Eng. 73, (1989) pp 173-189

Hughes, T.J.R., L. Mazzei, and K.E. Jansen, "Large Eddy Simulation and the variational multiscale method", Computing and Visualization in Science, 3 (2000) pp 47-59.

Hughes, T. J. R. and F. Shakib, Stanford University, "Computational Aerodynamics and the Finite Element Method", AIAA / AAS Astrodynamics Conference, January 11-15. (1988), Reno NV.

Johnson, K. and K.J.Bittorf, "Validating the Galerkin least-squares finite element methods in predicting mixing flows in stirred tank reactors", Proceedings Comptes Rendus, The 10th Annual Conference of the CFD Society of Canada, June 9-11, 2002, Windsor, Ontario (2002) pp 490-6

Johnson, C. and A. Szepessy, "Convergence of a finite element method for a nonlinear hyperbolic conservation law", Technical Report 1985-25, Mathematics Department, Chalmers University of Technology, Goteborg, Sweden (1985)

Johnson, C. and A. Szepessy, "On the convergence of streamline diffusion finite element methods for hyperbolic conservation law", in T.E. Tezduyar and T.J.R. Hughes (editors), Numerical Methods for Compressible Flows - Finite Difference, Element and Volume Techniques, AMD Vol. 78, ASME, New York (1986) pp 75-91

Nagata, S., "Mixing: Principles and Applications", John Wiley & Sons, NY (1975) p. 1-44

Oldshue, J.Y., "Fluid Mixing Technology", Chemical Engineering McGraw-Hill Pub. Co., NY (1983) pp 64-68

Shaw, J. A, "Understanding the Effects of Impeller Type, Diameter, and Power on Mixing Time", Chemical Engineering Progress, Feb (1994) pp 45-48

Spalart, P.R. and S.R. Allmaras, "A one-equation turbulence model for aerodynamic flows", AIAA Paper 92-0439 (1992)

Zalc, J.M, M. M. Alvarez, F. J. Muzzio, B. E. Arik, "Extensive Validation of Computed Laminar Flow in a Stirred Tank with Three Rushton Turbines ", AIChE Journal, Vol 47, No 10 October (2001) pp2144-2154

Zalc, J.M., E.S. Szalai, F.J. Muzzio and S. Jaffer, "Characterization of flow and mixing in an SMX static mixer", AIChE Journal, Vol. 48, No. 3 March (2002) pp427-436

Continue with Part 2  or  Go back to the Title Page

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