화학공학소재연구정보센터
검색결과 : 100건
No. Article
1 Dimensionless criteria as a tool for creation of a model for predicting the size of granules in high-shear granulation
Macho O, Kab?t J, Gabrisov? L, Peciar P, Juriga M, Fekete R, Galbav? P, Blasko J, Peciar M
Particulate Science and Technology, 38(3), 381, 2020
2 Revealing the dependence of graphene concentration and physicochemical properties on the crushing strength of co-granulated fertilizers by wet granulation process
Kabiri S, Tran DNH, Baird R, McLaughlin MJ, Losic D
Powder Technology, 360, 588, 2020
3 Numerical study on granule aggregation and breakage in fluidized bed granulation by a novel PBM with DEM-CFD coupling approach
Hayashi K, Nakamura H, Watano S
Powder Technology, 360, 1321, 2020
4 Powder bed packing and API content homogeneity of granules in single drop granule formation
Gao TX, Singaravelu ASS, Oka S, Ramachandran R, Stepanek F, Chawla N, Emady HN
Powder Technology, 366, 12, 2020
5 Continuous high-shear granulation: Mechanistic understanding of the influence of process parameters on critical quality attributes via elucidating the internal physical and chemical microstructure
Meng W, Dvorak J, Kumar R, Hofmeister R, Stepanek F, Ramachandran R, Muzzio FJ
Advanced Powder Technology, 30(9), 1765, 2019
6 A DEM model-based study to quantitatively compare the effect of wet and dry binder addition in high-shear wet granulation processes
Tamrakar A, Chen SW, Ramachandran R
Chemical Engineering Research & Design, 142, 307, 2019
7 Novel population balance model for granule aggregation and breakage in fluidized bed granulation and drying
Hayashi K, Watano S
Powder Technology, 342, 664, 2019
8 On the modelling of granule size distributions in twin-screw wet granulation: Calibration of a novel compartmental population balance model
Van Hauwermeiren D, Verstraeten M, Doshi P, Ende MTA, Turnbull N, Lee K, De Beer T, Nopens I
Powder Technology, 341, 116, 2019
9 Recent trends and future perspective of pharmaceutical wet granulation for better process understanding and product development
Thapa P, Tripathi J, Jeong SH
Powder Technology, 344, 864, 2019
10 High-shear granulation: An investigation into the granule consolidation and layering mechanism
de Koster SAL, Pitt K, Litster JD, Smith RM
Powder Technology, 355, 514, 2019