@article{ref1,
title="Thermocouple Response in Fires, Part 2: Validation of Virtual Thermocouple Model for Fire Codes",
journal="Journal of fire sciences",
year="2011",
author="Brundage, Aaron L. and Burl Donaldson, A. and Gill, Walt and Kearney, Sean P. and Nicolette, Vern F. and Yilmaz, Nadir",
volume="29",
number="3",
pages="213-226",
abstract="A virtual thermocouple model for high fidelity multiphysics computer simulation is introduced in this article. Detailed thermocouple and gas temperature (Coherent Anti-Stokes Raman Scattering) measurements were performed using a well-controlled, adiabatic, flat-flame Hencken burner, which provided data for validating the thermocouple model in a Sandia National Laboratories fire code. Comparison of simulation results to test data indicated a mean error of 6% between the thermocouple reading and predicted temperature.<p />",
language="en",
issn="0734-9041",
doi="10.1177/0734904110386188",
url="http://dx.doi.org/10.1177/0734904110386188"
}