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Condensation
Resistance Publications:
FY
2000:
Technical
Progress Report: 2-D Numerical Analysis of IGU Cavities at Inclined
Orientation
FY
2001:
Progress
Report (Hua Yang) - 2/17/01
Progress
Report (Hua Yang) - 8/7/01
FY
2002:
Technical
Report - The study of convection heat transfer in triple glazing
systems
Technical
Report: Comparison of the results of numerical modeling of convection
heat transfer in glazing cavities with ISO 15099 and WINDOW 4.1
correlations.
Progress
Report (Hua Yang) - 2/3/02 "Transition to Turbulence of Buoyant
Flows In Vertical Confined Enclosures"
Progress
Report (Hua Yang) - 2/21/02 "Turbulent Natural Convective
Heat Transfer in Vertical Rectangular Cavitie"
Progress
Report (Hua Yang) - 2/21/02 "Laminar Natural Convective Flow
in Inclined Rectangular Glazing Cavities"
Technical
Report: A Comparison of Turbulence Natural Convection Modeling
Prediction to Experimental Data for an Air Filled Square Cavity
Progress
Report (Hua Yang) - 7/29/02 (Natural Convective Flow in Inclined
Rectangular Glazing Cavities—3D study)
Technical
Report: Turbulent Heat Transfer in Buoyancy-Driven Natural Convection
in Vertical Enclosures
FY
2003:
Progress
Report (Bhaskar Adusumali) - 9/4/03 (Simulation of Natural convective
Heat Transfer of 3D Glazing Cavity)
Technical
Report: Modeling Natural Convection in a Glazing Cavity and Predicting
Transition Limits for Multicellular Flow from Simulations on FLUENT
Masters
Thesis (Hua Yang): NATURAL CONVECTIVE FLOW AND HEAT TRANSFER IN
VERTICAL AND INCLINED GLAZING CAVITIES
Progress
Report (Bhaskar Adusumali) - 10/31/03: Predicting local heat transfer
rates for 3D cavities in vertical and inclined orientations for
A=20 simulating 3D natural convection for A=80, Ra=9690 with full
and half models
Technical
Report: Study of Turbulent Natural Convection Flow in Rectangular
Enclosure
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