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Citation |
Zhang J, Delichatsios MA. Fire Safety J. 2009; 44(5): 681-690. |
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Copyright |
(Copyright © 2009, Elsevier Publishing) |
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DOI |
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PMID |
unavailable |
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Abstract |
A thin steel plate probe (24 mm wide×24 mm long×3 mm thick) surrounded by insulation except for the exposed surface was constructed. Using the temperature measurements of the steel plate and the heat flux measured by a Gardon gauge and with the assistance of numerical calculations, two methods based on three-dimensional inverse conduction problems are developed to determine the convective heat transfer coefficient in fire experiments. The first one is based on optimisation of the predictions of the temperature of the steel plate using different heat transfer coefficients, while the second adopts a “predictor–corrector” method to determine the instantaneous heat transfer coefficient. Validation of both methods is accomplished by performing experiments in the cone calorimeter at a known constant heat flux. Subsequently, the two methods are applied to experiments in enclosures to examine the sensitivities of the two methods. Keywords: Convective heat transfer coefficient; Thin steel plate probe; Inverse conduction problem |