Feedback Process in Cellulose Thermal Decomposition: Implications for Fire-retarding Strategies and Treatment

Date

2004

Authors

Ball, Rowena
McIntosh, A C
Brindley, J

Journal Title

Journal ISSN

Volume Title

Publisher

Institute of Physics Publishing

Abstract

A simple dynamical system that models the competitive thermokinetics and chemistry of cellulose decomposition is examined, with reference to evidence from experimental studies indicating that char formation is a low activation energy exothermal process and volatilization is a high activation energy endothermal process. The thermohydrolysis chemistry at the core of the primary competition is described. Essentially, the competition is between two nucleophiles, a molecule of water and an -OH group on C6 of an end glucosyl cation, to form either a reducing chain fragment with the propensity to undergo the bond-forming reactions that ultimately form char, or a levoglucosan end-fragment that depolymerizes to volatile products. The results of this analysis suggest that promotion of char formation under thermal stress can actually increase the production of flammable volatiles. Thus, we would like to convey an important safety message in this paper: in some situations where heat and mass transfer is restricted in cellulosic materials, such as furnishings, insulation, and stockpiles, the use of char-promoting treatments for fire retardation may have the effect of increasing the risk of flaming combustion.

Description

Keywords

Keywords: Activation energy; Chemical bonds; Combustion; Decomposition; Flame retardants; Mass transfer; Exothermal process; Nucleophiles; Thermokinetics; Cellulose; flame

Citation

Source

Combustion Theory and Modelling

Type

Journal article

Book Title

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