Litcius/Paper detail

Numerical Study on Particle Adhesion in Dry Powder Inhaler Device

Ryosuke Mitani, Shuji Ohsaki, Hideya Nakamura, Satoru Watano

2020Chemical and Pharmaceutical Bulletin18 citationsDOIOpen Access PDF

Abstract

This study investigated the particle adhesion mechanism in a capsule of dry powder inhaler (DPI) based on a combined computational fluid dynamics and discrete element method (CFD-DEM) approach. In this study, the Johnson-Kendall-Roberts (JKR) theory was selected as the adhesion force model. The simulation results corroborated the experimental results-numerous particles remained on the outlet side of the capsule, while a few particles remained on the inlet side. In the computer simulation, the modeled particles were placed in a capsule. They were quickly dispersed to both sides of the capsule, by air fed from one side of the capsule, and delivered from the air inlet side to the outlet side of the capsule. It was confirmed that vortex flows were seen at the outlet side of the capsule, which, however, were not seen at the inlet side. Numerous collisions were observed at the outlet side, while very few collisions were observed at the inlet side. These results suggested that the vortex flows were crucial to reduce the amount of residual particles in the capsule. The original capsule was then modified to enhance the vortex flow in the area, where many particles were found remaining. The modified capsule reduced the number of residual particles compared to the original capsule. This investigation suggests that the CFD-DEM approach can be a great tool for understanding the particle adhesion mechanism and improving the delivery efficiency of DPIs.

Topics & Concepts

CapsuleInletParticle (ecology)Computational fluid dynamicsVortexDiscrete element methodMechanicsChemistryDry-powder inhalerInhalerAdhesionComposite materialMaterials scienceMechanical engineeringGeologyEngineeringPhysicsAsthmaMedicinePaleontologyOceanographyInternal medicineInhalation and Respiratory Drug DeliveryAerosol Filtration and Electrostatic PrecipitationGranular flow and fluidized beds
Numerical Study on Particle Adhesion in Dry Powder Inhaler Device | Litcius