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Modeling of the pressure drop and flow field in a rotating fluidized bed
Chao Zhu
, C. H. Lin
, G. H. Qian
, R. Pfeffer
Mechanical and Industrial Engr
Research output
:
Contribution to journal
›
Article
›
peer-review
8
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Scopus citations
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Dive into the research topics of 'Modeling of the pressure drop and flow field in a rotating fluidized bed'. Together they form a unique fingerprint.
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Keyphrases
Flow Field
100%
Pressure-driven Flow
100%
Pressure Drop
100%
Rotating Fluidized Bed
100%
Distributor
85%
Rotational Speed
42%
Granular Particles
28%
Metal Screen
28%
Thin Elements
28%
Fluid Dynamics
14%
Analytical Model
14%
Mechanistic Model
14%
Fluidized Bed
14%
Fluidization
14%
Granules
14%
Coater
14%
Dryer
14%
Quadratic Equation
14%
Total Pressure Drop
14%
Speed-flow Relationships
14%
Rate Property
14%
Quadratic Relation
14%
Full Flow
14%
Catalytic Reactor
14%
Metal Cylinder
14%
Sintered Metal
14%
Dust Filter
14%
Slotted Cylinder
14%
Diesel Exhaust
14%
Perforated Cylinder
14%
Granulator
14%
Rotating Bed
14%
Numerical Simulation of Flow Field
14%
Engineering
Flow Field
100%
Fluidized Bed
100%
Pressure Drop
100%
Pressure Flow
100%
Rotating Speed
37%
Flow Rate
25%
Fluid Dynamics
12%
Computer Simulation
12%
Analytical Model
12%
Experimental Result
12%
Fluidization
12%
Mechanistic Model
12%
Quadratic Equation
12%
Diesel Exhaust
12%
Quadratic Relationship
12%
Granulators
12%
Chemical Engineering
Fluidized Bed
100%
Fluidization
16%
Diesel Exhaust
16%