Particle breakage /

Particle breakage is an important process within a wide range of solids processing industries, including pharmaceuticals, food, agricultural and mining. Breakage of particles can be defined as intentional and unintentional, depending on whether it is desired or not. Through understanding of the scie...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Salman, A. D., Ghadiri, M., Hounslow, M. J. (Michael J.)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam ; Oxford : Elsevier, 2007.
Colección:Handbook of powder technology ; v. 12.
Temas:
Powders.
Powders
Poudres.
powder.
TECHNOLOGY & ENGINEERING > Nanotechnology & MEMS.
Acceso en línea:Texto completo
Texto completo
Tabla de Contenidos:
  • I. Fundamental
  • 1. Breakage of single particles: Quasi-static
  • (L. Marcelo Tavares).
  • 2. Impact breakage of single particles: Double Impact Test (K.T. Chau, S.Z. Wu).
  • 3. Particle breakage due to bulk shear (J. Bridgwater).
  • 4. The principles of single-particle crushing (G. Unland).
  • II. Milling
  • 5. Rotor impact mills (R. Nied).
  • 6. Wet grinding in stirred media mills (A. Kwade, J. Schwedes).
  • 7. Roller milling of wheat (G.M. Campbell).
  • 8. Air jet milling (A. Chamayou, J.A. Dodds).
  • 9. Breakage and morphological parameters determined by laboratory tests (M. Yekeler).
  • 10. Selection of fine grinding mills (Toyokazu Yokoyama, Yoshiyuki Inoue).
  • 11. Fine grinding of materials in dry systems and mechanochemistry (Qiwu Zhang <IT>et al.).
  • 12. Comminution energy and evaluation in fine grinding (Yoshiteru Kanda, Naoya Kotake).
  • 13. Enabling nanomilling through control of particulate interfaces (M. Sommer, W. Peukert).
  • 14. Analysis of milling and the role of feed properties (Mojtaba Ghadiri <IT>et al</IT>.).
  • III. Modelling
  • 15. Monte Carlo method for the analysis of particle breakage (B.K. Mishra).
  • 16. Numerical investigation of particle breakage as applied to mechanical crushing (C.A. Tang, H.Y. Liu).
  • 17. The cohesion of fractal agglomerates: an elementary numerical model (E. Pefferkorn).
  • 18. The linear breakage equation: from fundamental issues to numerical solution techniques (M. Kostoglou).
  • 19. Analysis of agglomerate breakage (M. Ghadiri <IT>et al</IT>.).
  • 20. Modelling of mills and milling circuits (P. Toneva, W. Peukert).
  • IV. Applications
  • 21. Particle strength in an industrial environment
  • (Dr. G.M.H. Meesters).
  • 22. The strength of pharmaceutical tablets (I.C. Sinka <IT>et al</IT>.).
  • 23. Crystal growth and dissolution with breakage: distribution kinetics modelling (Giridhar Madras, B.J. McCo).
  • 24. Liberation of valuables embedded in particle compounds and solid waste (W. Schubert, J. Tomas).
  • 25. Attrition in fluidised beds (R. Boerefijn <IT>et al</IT>.).
  • 26. A mechanistic description of granule deformation and breakage (Y.S. Cheong <IT>et al</IT>.).
  • 27. Descriptive classification: failure modes of particles by compression (I. Gabbott <IT>et al</IT>.).
  • 28. A new concept for addressing Bulk Solids Attrition in Pneumatic Conveying (L. Frye).

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