Skip to main navigation
Skip to search
Skip to main content
University of Birmingham Home
Help & FAQ
Home
Research output
Profiles
Research units
Projects
Activities
Datasets
Equipment
Prizes
Press/Media
Search by expertise, name or affiliation
The effect of surfactants on the instability of a rotating liquid jet
Jamal Uddin
, Stephen Decent,
Mark Simmons
Mathematics
Engineering and Physical Sciences
Chemical Engineering
Research output
:
Contribution to journal
›
Article
16
Citations (Scopus)
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'The effect of surfactants on the instability of a rotating liquid jet'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Surfactant
100%
Liquid Jet
100%
Surfactant Effect
100%
Rotating Liquid
100%
Rotation Rate
60%
Wave number
60%
Droplet Size
40%
Satellite Droplet
40%
Japan
20%
Governing Equation
20%
Fluid Mechanics
20%
Free Surface
20%
Leading Order
20%
Growth Rate
20%
Steady State
20%
Viscosity
20%
Asymptotic Theory
20%
Breakup Length
20%
Free Jet
20%
Linear Stability Analysis
20%
Surfactant Concentration
20%
Size Reduction
20%
Finite Difference Scheme
20%
Surfactant-free
20%
Surface Tension Gradient
20%
Long-wavelength Approximation
20%
Prilling
20%
Fluid Parameters
20%
Moderate Disturbance
20%
Low Disturbance
20%
Liquid Control
20%
Steady Solution
20%
Marangoni
20%
One-dimensional Equations
20%
Tangential Stress
20%
Insoluble Surfactant
20%
Engineering
Liquid Jet
100%
Surfactant
100%
Fluid Mechanics
10%
Free Surface
10%
One Dimensional
10%
Leading Order
10%
Rotation Rate
10%
Fluid Viscosity
10%
Instability Analysis
10%
Droplet Size
10%
Surface Tension Gradient
10%
Japan
10%
Led Surface
10%
Create Surface
10%
Tangential Stress
10%
Steady Solution
10%
Marangoni
10%
Centerline Plane
10%
Material Science
Surface Active Agent
100%
Surface (Surface Science)
20%
Fluid Mechanics
10%
Surface Tension
10%
Finite Difference Method
10%
Chemical Engineering
Surfactant
100%