- Author
-
Bryant, R. A.
|
Womeldorf, C. A.
|
Johnsson, E. L.
|
Ohlemiller, T. J.
- Title
- Radiative Heat Flux Measurement Uncertainty.
- Coporate
- National Institute of Standards and Technology, Gaithersburg, MD
- Journal
-
Fire and Materials,
Vol. 27,
No. 5,
209-222,
September/Ocotber 2003
- Keywords
-
heat flux
|
uncertainty
|
heat transfer
|
equations
- Identifiers
- input parameter and uncertainty estimates; non-dimensional sensitivity coefficients; average Nusselt number and convective heat transfer coefficient for applicable geometries
- Abstract
- As part of an effort to characterize the uncertainties associated with heat flux measurements in a fire environment, an uncertainty analysis example was performed using measurement data from a room corner surface products test that followed the guidelines of ISO 9705. Equations to model the heat transfer at the surface of a Schmidt-Boelter (thermopile) type total heat flux gauge were selected for use to calculate the incident radiative flux from a total heat flux measurement. The effects of the heat flux measurement uncertainty sources were evaluated by conducting an uncertainty propagation on the resulting equation for incident radiation. For the model equations and the example conditions selected, the free-stream temperature estimate and the heat flux gauge calibration constant were determined to be major uncertainty contributors. The study demonstrates how to systematically identify major sources of uncertainty for the purpose of reducing total uncertainty and thereby enhancing experiment design.