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Length scale propagation along a joint inlet and thermal buoyancy driven flow
D. R. Marr,
M. N. Glauser
Department of Mechanical & Aerospace Engineering
Aging Studies Institute
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Dive into the research topics of 'Length scale propagation along a joint inlet and thermal buoyancy driven flow'. Together they form a unique fingerprint.
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Keyphrases
Cubicles
100%
Buoyancy-driven Flow
100%
Thermal Buoyancy
100%
Displacement Ventilation
66%
Two-point Correlation
33%
Particle Image Velocimetry
33%
Standing Height
33%
Turbulence
33%
Model Selection
33%
Ventilation
33%
Ventilation System
33%
Turbulence Model
33%
Optical Access
33%
Heated Manikin
33%
Ventilation Technique
33%
Breathing Effect
33%
Skin Temperature
33%
Integral Length
33%
Furniture
33%
Particle Image Velocimetry Technique
33%
CFD Validation
33%
Streamwise
33%
Average Person
33%
Buoyancy
33%
Heating Zone
33%
Model Validation
33%
Office Environment
33%
Engineering
Driven Flow
100%
Joints (Structural Components)
100%
Length Scale
100%
Particle Image Velocimetry
66%
Displacement Ventilation
66%
Breathing
33%
Isothermal
33%
Heating Zone
33%
Ventilation System
33%
Computational Fluid Dynamics
33%
Extended Analysis
33%
Simplifies
33%
Streamwise
33%
Manikin
33%
Square Foot
33%
Floors
33%
Boundary Condition
33%