Skip to main navigation
Skip to search
Skip to main content
Research Explorer The University of Manchester Home
Home
Research Profiles
Research units
Research output
Projects
Impacts
Activities
Press/Media
Prizes
Equipment and Facilities
Datasets
Student theses
Search by expertise, name or affiliation
Viscous linear stability analysis of rectangular duct and cavity flows
V. Theofilis,
P. W. Duck
, J. Owen
Research output
:
Contribution to journal
›
Article
›
peer-review
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Viscous linear stability analysis of rectangular duct and cavity flows'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Engineering
Linear Stability Analysis
100%
Rectangular Duct
100%
Cavity Flow
100%
Rectangular Cavity
100%
Eigenvalue
77%
Duct
44%
Couette Flow
33%
Prediction
33%
Two Dimensional
22%
Stability
22%
Eigenmode
22%
Aspect Ratio
22%
Pressure Gradient
22%
Development
11%
Flow Rate
11%
Experiments
11%
Axial Direction
11%
Partial Derivative
11%
Cavity
11%
Small Amplitude
11%
One Dimensional
11%
Instability Analysis
11%
Constant Pressure
11%
Reynolds' Number
11%
Plane Poiseuille Flow
11%
Square Duct
11%
Velocity Component
11%
Driven Flow
11%
Critical Reynolds Number
11%
Velocity
11%
Incompressible Flow
11%
Earth and Planetary Sciences
Cavity Flow
100%
Air Duct
100%
Stability Analysis
100%
Wall
55%
Stability
44%
Couette Flow
33%
Plane
33%
Prediction
33%
Square
22%
Pressure Gradient
22%
Aspect Ratio
22%
Parameter
22%
Reynolds Number
22%
Jet Flow
11%
Value
11%
Amplitude
11%
Length
11%
Agreement
11%
Bracket
11%
Destabilization
11%
Investigation
11%
Cavity
11%
Flow Velocity
11%
Spectra
11%
Speed
11%
Incompressible Flow
11%
Datum
11%
Stable
11%
Experimentation
11%
Significance
11%
Mathematics
Stability Analysis
100%
Flow
100%
Driven Cavity Flow
44%
Classes
33%
Prediction
33%
Parameters
22%
Reynolds Number
22%
Aspect-Ratio
22%
Direction
22%
Stability
22%
Axial Direction
11%
Variables
11%
Series Analysis
11%
Velocity Component
11%
Power Series
11%
Incompressible Flow
11%
Constant Pressure Gradient
11%
Poiseuille Flow
11%
Pressure Gradient
11%
Flow Velocity
11%
Partial Derivative
11%
Eigenvalue Problems
11%
Physics
Stability
100%
Ducts
100%
Cavity Flow
100%
Plane
33%
Couette Flow
33%
Reynolds Number
22%
Aspect Ratio
22%
Parameter
22%
Speed
11%
Amplitudes
11%
Value
11%
Flow Velocity
11%
Work
11%
Significance
11%
Jet Flow
11%
Incompressible Flow
11%
Frequencies
11%
Spectra
11%
Computer Science
Stability Analysis
100%
Classes
33%
Reynolds Number
22%
Parameter Value
11%
Velocity Component
11%
Incompressible Flow
11%
Constant Pressure
11%
Relationships
11%
Partial Derivative
11%
Container
11%