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Original Articles

RADIATION EFFECTS FOR DOWNWARD FLAME SPREAD OVER A THERMALLY THIN FUEL IN A PARTIAL-GRAVITY ENVIRONMENT

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Pages 1909-1933 | Received 01 Jul 2003, Accepted 01 Mar 2004, Published online: 11 Aug 2010
 

Abstract

This study explores the effects of radiation on a downward flame spread over a thermally thin solid fuel in a partial-gravity environment. The radiation effect and gravitational field strength (g) are predicted not to influence the ignition delay time. The flame-spread rate reaches a maximum at g = 0.01. At g > 0.01, the flame stretch effect dominates the behaviors of the flame. Radiation heat transfer and oxygen transport control the flame behaviors for g < 0.01. The predicted quenching limit is g = 5 × 10−6, close to the value obtained experimentally elsewhere. Radiation has two simultaneous effects. One is to reduce the flame strength by carrying heat to the ambient. The other one is combined with upstream conduction to enhance the total forward heat transfer rate and thus preheat virgin fuel upstream. The solid fuel temperature is low and some fuel is left over in low gravity due to radiation loss. Energy analyses indicate that the conduction heat flux from the flame () dominates its behaviors. However, radiation gradually competes with as the gravity is reduced.

The authors would like to thank the National Science Council of the Republic of China for financially supporting this research under Contract no. NSC89-2212-E009-058.

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