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Modelling the dynamic behaviour of junction fires with a coupled fire-atmosphere model
Title | Modelling the dynamic behaviour of junction fires with a coupled fire-atmosphere model |
Publication Type | Journal Article |
Year of Publication | 2017 |
Authors | Thomas, CM, Sharples, JJ, Evans, JP |
Journal | International Journal of Wildland Fire |
Volume | 26 |
Issue | 4 |
Start Page | 331 |
Pagination | 331-344 |
Date Published | 04/2017 |
Abstract | Dynamic fire behaviour involves rapid changes in fire behaviour without significant changes in ambient conditions, and can compromise firefighter and community safety. Dynamic fire behaviour cannot be captured using spatial implementations of empirical fire-spread models predicated on the assumption of an equilibrium, or quasi-steady, rate of spread. In this study, a coupled atmosphere–fire model is used to model the dynamic propagation of junction fires, i.e. when two firelines merge at an oblique angle. This involves very rapid initial rates of spread, even with no ambient wind. The simulations are in good qualitative agreement with a previous experimental study, and indicate that pyro-convective interaction between the fire and the atmosphere is the key mechanism driving the dynamic fire propagation. An examination of the vertical vorticity in the simulations, and its relationship to the fireline geometry, gives insight into this mechanism. Junction fires have been modelled previously using curvature-dependent rates of spread. In this study, however, although fireline geometry clearly influences rate of spread, no relationship is found between local fireline curvature and the simulated instantaneous local rate of spread. It is possible that such a relationship may be found at larger scales. |
URL | http://www.publish.csiro.au/wf/WF16079 |
DOI | 10.1071/WF16079 |
Refereed Designation | Refereed |
Full Text | Click here to access full text via ResearchGate. |