Skip to main navigation
Skip to search
Skip to main content
New Jersey Institute of Technology Home
Help & FAQ
Home
Profiles
Research units
Facilities
Federal Grants
Research output
Press/Media
Search by expertise, name or affiliation
Jet dispersion and deposition of charged particles in confined chambers
Chao Zhu
, Dawei Wang, Chao Hsin Lin
Mechanical and Industrial Engr
Research output
:
Contribution to journal
›
Article
›
peer-review
8
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Jet dispersion and deposition of charged particles in confined chambers'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Charged Particles
100%
Jet Dispersion
100%
Particle Trajectory
75%
Vortex
50%
Equations of Motion
50%
Cone Angle
50%
Space Charge Distribution
50%
Gas-solid Two-phase Flow
50%
Industrial Application
25%
Flow Field
25%
Residence Time
25%
Particle Dispersion
25%
Flow Pattern
25%
Flow Control
25%
Particle Phase
25%
Modeling Prediction
25%
Dry Powder Coating
25%
Source Term
25%
Sidewall
25%
Surface Deposition
25%
Powder Coating Process
25%
Flow Separation
25%
Gaseous Phase
25%
Electrostatic Charge
25%
Gas-solid
25%
Lagrangian Equation
25%
Eulerian-Lagrangian Approach
25%
Entrance Region
25%
Cylindrical Chamber
25%
One-way Coupling
25%
Flow Trajectory
25%
Electrostatic Precipitation
25%
Trajectory of Charged Particles
25%
Radial Dispersion
25%
Flow Field Structure
25%
Engineering
Particle Trajectory
100%
Two-Phase Flow
66%
Flow Field
66%
Space Charge
66%
Dilute Gas
66%
Industrial Applications
33%
Vortex
33%
Optimal Design
33%
Modeling Study
33%
Lagrangian Approach
33%
Source Term
33%
Side Wall
33%
Electrostatic Charge
33%
Gaseous Phase
33%
Entrance Region
33%
Electrostatic Precipitator
33%
Particle Phase
33%
Flow Separation
33%
Physics
Charged Particle
100%
Flow Distribution
60%
Particle Trajectory
60%
Charge Distribution
40%
Two Phase Flow
40%
Space Charge
40%
Electrostatics
20%
Electrostatic Charge
20%
Equation of Motion
20%
Laminar Boundary Layer
20%
Material Science
Two Phase Flow
100%
Coating Process
50%
Vortex
50%
Powder Coating
50%