[1] Lister J., Ennis B., Liu L., "The Science and Engineering of Granulation Processes", in: Mixer Granulators, Kluwer Academic Publishers, Netherlands, p. 221 (2004).
[2] Iveson S.M., Wauters P.A.L., Forrest S., Lister J.D., Meesters G.M.H., Scarlett B., Growth Regime Map for Liquid-Bound Granules: Further Development and Experimental Validation, Powder Technol., 117, p. 83 (2001).
[3] Knight P.C.,An Investigation of the Kinetics of Granulation Using a High Shear Mixer, Powder Technol., 77, p. 159 (1993).
[4] Holm P., Schaefer T., Kristensen H.G., Granulation in High-Speed Mixers Part VI. Effects of Process Conditions on Power Consumption and Granule Growth, Powder Technol., 43, p. 225 (1985).
[5] Hoornaert F., Wauters P.A.L, Meesters G.M.H., Pratsinis S.E., Scarlett B.,Agglomeration Behavior of Powders in a Lödige Mixer Granulator, Powder Technol., 96, p. 116 (1998).
[6] Knight P.C., Instone T., Pearson J.M.K., Hounslow M.J., An investigation Into the Kinetics of Liquid Distribution and Growth in High Shear Mixer Agglomeration, Powder Technol., 97, p. 246 (1998).
[7] Schaefer T., Mathiesen C., Melt Pelletization in a High Shear Mixer. IX Effects of Binder Particle Size, Int. J. Pharm., 139, p. 139 (1996).
[8] Knight P.C., Johansen A., Kristensen H.G., Schaefer T., Seville J.P.K.,An Investigation of the Effects on Agglomeration of Changing the Speed of a Mechanical Mixer, Powder technol., 110, p. 204 (2000).
[9] Ramaker J.S., Albada Jelgersma M., Vonk P., Kossen N.W.F., Scale-Down of a High-Shear Pelletisation Process: Flow Profile and Growth Kinetics, Int. J. Pharm., 166, p. 89 (1998).
[10] Thies R., Kleinbudde P., Melt Pelletisation of a Hygroscopic Drug in a High Shear Mixer. Part 2, Mutual Compensation of Influence Variables, Euro. J. Pharm. Sci., 10, p. 103 (2000).
[11] Mangwandi C., Adams M.J., Hounslow M.J., Salman A.D., Effect of Impeller Speed on Mechanical and Dissolution Properties of High-Shear Granules, Chem. Eng. J., 164, p. 305 (2010).
[12] Oulahna D., Cordier F., Galet L., Dodds J.A., Wet Granulation: the Effect of Shear on Granule Properties, Powder Technol., 130, p. 238 (2003).
[13] Rahmanian N., Naji A., Ghadiri M., Effects of Process Parameters on Granules Properties Produced in a High Shear Granulator, Chem. Eng. Res. Des., 89, p. 512 (2011).
[14] Ranjbarian S., Farhadi F., Evaluation of the Effects of Process Parameters on Granule Mean Size in a Conical High Shear Granulator Using Response Surface Methodology, Powder Technol., 237, p. 186 (2013).
[15] Reynolds G.K., Biggs C.A., Salman A.D., Hounslow M.J., Non-Uniformity of Binder Distribution in High-Shear Granulation, Powder Technol., 140, p. 203 (2004).
[16] Scott A.C., Hounslow M.J., Instone T., Direct Evidence of Heterogeneity During High-Shear Granulation, Powder Technol., 113, p. 205 (2000).
[17] Rahmanian N., Ghadiri M., Jia X., Stepanek F., Characterisation of Granule Structure and Strength Made in a High Shear Granulator, Powder Technol., 192, p. 184 (2009).