Tytuł artykułu

The Effect of Wetting on The Course of The Drum Granulation

Tytuł czasopisma

Chemical and Process Engineering




vol. 38


No 2


Wydział PAN

Nauki Techniczne


Polish Academy of Sciences Committee of Chemical and Process Engineering




ISSN 0208-6425


Ennis (1990), The influence of viscosity on the strength of an axially strained pendular liquid bridge, Chem Eng Sci, 45, ; Nguyen (2009), Drop penetration time in heterogeneous powder beds, Chem Eng Sci, 64, ; Ramachandran (2008), Experimental studies on distributions of granule size , binder content and porosity in batch drum granulation : Inferences on process modelling requirements and process sensitivities, Powder Technol, 188, ; Sastry (1973), Mechanism of agglomerate growth in green palletization, Powder Technol, 7. ; Iveson (2001), Nucleation , growth and breakage phenomena in agitated wet granulation processes, Powder Technol, 117, ; Obraniak (2012), A model of agglomerate formation during disc granulation process, Chem Process Eng, 33, ; Smirani (2009), Binder liquid distribution during granulation process and its relationship to granule size distribution, Powder Technol, 195, ; Rajniak (2007), Experimental study of wet granulation in fluidized bed : Impact of the binder properties on the granule morphology, Int J Pharm, 334, ; Opaliński (2001), Siły adhezji kapilarnej w materiałach rozdrobnionych Mechanizm oddziaływania i modelowanie, Inż Chem Proc, 22. ; Willett (2003), Effect of wetting hysteresis on pendular liquid bridges between rigid spheres, Powder Technol, 130, ; Ennis (1991), A microlevel - based characterization of granulation phenomena, Powder Technol, 65, ; Junnila (1998), Effect of surface - active agent on the size , shape and hardness of micro - crystalline cellulose / maize starch pellets prepared by an extrusion - spheronization technique, Pharma Sciences, 8, 221. ; Hotta (1974), The capillary bonding force of a liquid bridge, Powder Technol, 10, ; Rivera (2017), Wettability in water / iron ore powder systems : To the universality of the Cassie model, Int J Miner Process, 162, ; Hapgood (2002), Drop penetration into porous powder beds, Colloid Interface Sci, 253, ; Pepin (2000), Modeling pendular liquid bridges with a reducing solid liquid interface, Coll Int Sci, 232, ; Charles (2011), Granule nucleation and growth : Competing drop spreading and infiltration processes, Powder Technol, 206, ; Nienow (1995), Fluidised bed granulation and coating application to materials agriculture and biotechnology, Chem Eng Comm, 139,