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Electroosmotic augmentation in flexural plate wave micropumps
Ersin Sayar
*
, Bakhtier Farouk
*
Corresponding author for this work
Drexel University College of Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
6
Citations (Scopus)
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Keyphrases
Micropump
100%
Electroosmosis
100%
Flexural Plate Wave
100%
Actuation Frequency
40%
Channel Height
40%
Electrokinetics
40%
Acoustics
40%
Micromixer
40%
Computational Study
20%
Microfluidic chip
20%
Laplace Equation
20%
Applied Electric Potential
20%
Nonlinear Poisson-Boltzmann Equation
20%
Transient Analysis
20%
Electric Double Layer
20%
Double Layer Potential
20%
Portability
20%
Acoustic Waves
20%
Micro Total Analysis Systems (μTAS)
20%
Water Flow
20%
Compressible Flow
20%
Isothermal Equation of State
20%
Moving Wall
20%
Forcing Frequency
20%
Acoustic Excitation
20%
Two-channel
20%
High-speed Flow
20%
Wall Motion
20%
Body Force
20%
Wall Model
20%
Acoustic Perturbation
20%
Electric Field Intensity
20%
Microscale Flow
20%
Engineering
Micropump
100%
Flow Rate
75%
Flow Velocity
75%
Actuation
50%
Mixers (Machinery)
50%
Microchannel
50%
Applicability
25%
Isothermal
25%
Microscale
25%
Boltzmann Equation
25%
Electric Potential
25%
Micro Total Analysis System
25%
Transient Analysis
25%
Field Intensity
25%
Moving Wall
25%
Flow System
25%
Compressible Flow
25%
Body Force
25%
Electric Double Layer
25%
Acoustic Wavelength
25%
Acoustic Perturbation
25%
Electric Field
25%
Laplace Equation
25%
Equations of State
25%