Agitation and Mixing

  • Frank Aerstin
  • Gary Street

Keywords

Settling Flange Emulsification Weinstein 

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. 1.
    D. Leng, Dow Chemical Co., USA, Midland, Michigan, 1973, unpublished data.Google Scholar
  2. 2.
    R. L. Bates, P. L. Fondy, and R. R. Corpstein, An examination of some geometric parameters of impeller power, Ind. Eng. Chem. Process Des. Dev. 2 (4), 311 (1963).CrossRefGoogle Scholar
  3. 3.
    Agitation Speed-Power Calculator, Bulletin 1018, Pfaudler Division, Ritter Pfaudler Corporation, Rochester, New York, 1961, p. 6.Google Scholar
  4. 4.
    Bulletin KTEK-2, Pressure Drop in the STATIC MIXER Unit, Kenics Corporation, N. Andover, Massachusetts, 1972, pp. K2-1–K2-9.Google Scholar
  5. 5.
    Bulletin M-376, Charles Ross and Son Company, Hauppauge, LI, New York, 1976, pp. 1–7.Google Scholar

Selected Reading: Agitation

  1. Agitation Speed-Power Calculator, Bulletin 1018, Pfaudler Division, Ritter Pfaudler Corporation, Rochester, N.Y., 1961.Google Scholar
  2. R. L. Bates, P. L. Fondy, and R. R. Corpstein, An examination of some geometric parameters of impeller power, Industrial and Engineering Chemistry Process Design and Development, Vol. 2, No. 4, October (1963).Google Scholar
  3. J. R. Connolly and R. L. Winter, Approaches to mixing operation scale-up, Chem. Eng. Prog., Vol. 65, No. 8, August (1969).Google Scholar
  4. D. S. Dickey and J. G. Fenic, Dimensional analysis for fluid agitation systems, Chem. Eng., January 5 (1976).Google Scholar
  5. D. S. Dickey and R. W. Hicks, Fundamentals of agitation, Chem. Eng., February 2 (1976).Google Scholar
  6. L. E. Gates, T. L. Henley, and J. G. Fenic, How to select the optimum turbine agitator, Chem. Eng., December 8 (1976).Google Scholar
  7. L. E. Gates, R. W. Hicks, and D. S. Dickey, Application guidelines for turbine agitators, Chem. Eng., December 6 (1976).Google Scholar
  8. L. E. Gates, J. R. Morton, and P. L. Fondy, Selecting agitator systems to suspend solids in liquids, Chem. Eng., May 24 (1976).Google Scholar
  9. R. W. Hicks and D. S. Dickey, Applications analysis for turbine agitators, Chem. Eng., November 8 (1976).Google Scholar
  10. R. W. Hicks and L. E. Gates, How to select turbine agitators for dispersing gas into liquids, Chem. Eng., July 19 (1976).Google Scholar
  11. R. W. Hicks, J. R. Morton, and J. G. Fenic, How to design agitators for desired process response, Chem. Eng., April 26 (1976).Google Scholar
  12. R. S. Hill and D. L. Kime, How to specify drive trains for turbine agitators, Chem. Eng., August 2 (1976).Google Scholar
  13. F. A. Holland and L. S. Chapman, Liquid Mixing and Process in Stirred Tanks, Reinhold Publishing Corp., New York, 1966.Google Scholar
  14. W. S. Meyer and D. L. Kime, Cost estimation for turbine agitators, Chem. Eng., September 27 (1976).Google Scholar
  15. N. H. Parker, Mixing-Modern theory and practice, Chem. Eng., June 8 (1964).Google Scholar
  16. W. R. Penney, Recent trends in mixing equipment, Chem. Eng., March 22 (1971).Google Scholar
  17. W. D. Ramsey and G. C. Zoller, How the design of shafts, seals and impellers affects agitator performance, Chem. Eng., August 30 (1976).Google Scholar
  18. R. R. Rautzen, R. R. Corpstein, and D. S. Dickey, How to use scale-up methods for turbine agitators, Chem. Eng., October 25 (1976).Google Scholar
  19. J. H. Rushton and J. Y. Oldshue, Mixing-Present theory and practice, Chem. Eng. Prog., Vol. 49, No. 4, April (1953) and Vol. 49, No. 5, May (1953).Google Scholar
  20. V. W. Uhl and J. B. Gray, Mixing-Theory and practice, Vols. I and II, Academic Press, New York, 1966.Google Scholar
  21. V. W. Uhl and H. P. Voznick, The anchor agitator, Chem. Eng. Prog., Vol. 56, No. 3, March (1960).Google Scholar
  22. A. P. Weber, Selecting turbine agitators, Chem. Eng., December 7 (1964).Google Scholar

Selected Reading: Motionless Mixers

  1. S. J. Chen, Bulletin, KTEK-1, The Static Mixer® Unit and Principles of Operation; KTEK-2, Pressure Drop in the Static Mixer® Unit; KTEK-3, Heat Transfer and Thermal Homogenization of Viscous Flow in the Static Mixer® Unit; KTEK-4, Radial Mixing and Residence Time Distribution in the Static Mixer® Unit; KTEK-5, Drop Formation of Low-Viscosity Fluids in the Static Mixer® Unit; KTEK-6, Interphase Heat and Mass Transfer Operations in the Static Mixer® Unit; KTEK-7, Dry Solids Mixing and Handling in the Static Mixer® Unit; KTEK-8, Comparative Costs of the Static Mixer® Unit and Several Conventional Mixing Devices, Kenics Corporation, N. Andover, Massachusetts, 1972.Google Scholar
  2. S. J. Chen and A. R. MacDonald, Motionless mixers for viscous polymers, Chem. Eng., March 19 (1973).Google Scholar
  3. S. J. Chen, Static mixing of polymers, Chem. Eng. Prog., Vol. 71, No. 8, August (1975).Google Scholar
  4. R. Devellion, Motionless mixers, Automation, February (1972).Google Scholar
  5. N. R. Shott, B. Weinstein, and D. LaBombard, Motionless mixers in plastic processing, Chem. Eng. Prog., Vol. 71, No. 1, January (1975).Google Scholar

Copyright information

© Plenum Press, New York 1978

Authors and Affiliations

  • Frank Aerstin
    • 1
  • Gary Street
    • 1
  1. 1.Dow ChemicalMidlandUSA

Personalised recommendations