The designed visiometric liquid jet-mediated disintegration apparatus for RDT provided efficient and precise determination of very short disintegration times of rapidly disintegrating dosage forms. Thus, the applied CFD approach had the potential to predict the fluid hydrodynamics for the design of optimal disintegration apparatus. The short version: They’re good ole’ metal shelves like the cheap (and useful) ones you probably already have, but this company, Space-Trac, has added a little track system on the bottom and some sliding feed so you can stack them two-deep and slide the shelves back and forth for access. The results obtained using the designed apparatus correlated well to those obtained by the USP apparatus. Six types of commercial RDTs were used and disintegration times of these tablets were determined using the designed RDT disintegration apparatus and the USP disintegration apparatus. Based on the results, the most suitable disintegration compartment was selected. Simulation was validated by good agreement between CFD and experimental results. The CFD preprocessor established the compartment models and the CFD solver determined the numerical solutions of the governing equations that described disintegration medium flow. Computational fluid dynamics (CFD) was used to simulate 3 different designs of the compartment and to predict velocity and pressure patterns inside the compartment. The designed RDT disintegration apparatus consisted of disintegration compartment, stereomicroscope and high speed video camera.
#Motionpro 14 707 windows 10
8 screenshots: runs on: Windows 10 32/64 bit Windows 8 32/64 bit Windows 7 32/64 bit file size: 11. The aim of this study was to develop a responsive disintegration test apparatus that is particularly suitable for rapidly disintegrating tablets (RDTs). OpenBullet 1.2.2 (707) add to watchlist send us an update.