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Particle agglomeration via resonant acoustic mixer for dry powder inhalation
Qingzhen Zhang
,
Zheng Wang
,
Philip Hall
Department of Chemical and Environmental Engineering
Research output
:
Journal Publication
›
Article
›
peer-review
Overview
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Dive into the research topics of 'Particle agglomeration via resonant acoustic mixer for dry powder inhalation'. Together they form a unique fingerprint.
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Keyphrases
Acceleration Forces
33%
Acoustic Mixing
66%
Agglomerated Particles
33%
Agglomerates
100%
Agglomeration Process
33%
Air Flow Rate
33%
Double-layer Grids
33%
Dry Powder Inhalation
100%
Emitted Dose
33%
Fine Particle Fraction
66%
Fine Particles
66%
Inhalation Performance
33%
Internal Space
33%
Mechanical Strength
33%
Melatonin
33%
Metered Dose
33%
Mixer
33%
Mixing Process
33%
Mixture Strength
33%
Packing Fraction
33%
Particle Agglomeration
100%
Particle Collision
33%
Particle Deposition
33%
Particle Size Distribution
33%
Pulmonary Delivery
33%
Resonant Acoustic Mixer
100%
Resonant Acoustic Mixing
66%
Turbuhaler
33%
Pharmacology, Toxicology and Pharmaceutical Science
Melatonin
100%
Metered-Dose Inhaler
100%
Particle Deposition
100%
Particle-Size Distribution
100%