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Experimental Techniques for Measuring Temperature and Velocity Fields to Improve the Use and Validation of Building Heat Transfer

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Conference Proceeding by ASHRAE, 1998

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Description

When modeling the thermal performance of building components and envelopes, researchers have traditionally relied on average surface heat-transfer coefficients that often do not accurately represent surface heat-transfer phenomena at any specific point on the component being evaluated. The authors have developed new experimental techniques that measure localized surface heat-flow phenomena resulting from convection. The data gathered using these new experimental procedures can be used to calculate local film coefficients and validate complex models of room and building envelope heat flows. These new techniques use a computer-controlled traversing system to measure both temperatures and air velocities in the boundary layer near the surface of a building component in conjunction with current methods that rely on infrared (IR) thermography to measure surface temperatures. Measured data gathered using these new experimental procedures are presented here for two specimens:

  • (1) a calibrated transfer standard (CTS) that approximates a constant-heat-flux, flat plate; and
  • (2) a dual-glazed, low-emittance (low-e), wood-frame window.
The specimens were tested under steady-state heat flow conditions in laboratory thermal chambers. Air temperature and mean velocity data are presented with high spatial resolution (0.25 mm to 25 mm density). Local surface heat-transfer film coefficients are derived from the experimental data by means of a method that calculates heat flux using a linear equation for air temperature in the inner region of the boundary layer. Local values for convection surface heat-transfer rate vary from 1 W/m2 K to 4.5 w/m2 K. Data for air velocity show that convection in the warm-side thermal chamber is mixed forced/natural, but local velocity maximums occur from 4 mm to 8 mm from the window glazing.

Citation: Thermal Performance of the Exterior Envelopes of Buildings VII

Product Details

Published:
1998
File Size:
1 file , 600 KB
Product Code(s):
D-8087