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RESEARCH ARTICLE
Contents Vol 15(4)

Investigation of the wind speed threshold above which discarded cigarettes are likely to be moved by the wind

Gavriil Xanthopoulos A C , Dany Ghosn B and George Kazakis B
+ Author Affiliations
- Author Affiliations

A National Agricultural Research Foundation, Institute for Mediterranean Forest Ecosystems and Forest Products Technology, Terma Alkmanos, GR-11528, Athens, Greece.

B Mediterranean Agronomic Institute of Chania, Alsyllio Agrokepiou, PO Box 85, GR-73100, Chania, Crete, Greece.

C Corresponding author. Email: gxnrtc@fria.gr

International Journal of Wildland Fire 15(4) 567-576 https://doi.org/10.1071/WF05080
Published: 7 December 2006

Abstract

Cigarette butts thrown from passing cars often become fire ignition sources. However, this is only possible if a butt ends up on dead and dry fuels on the roadside. The current paper presents two experiments, carried out in a wind tunnel, designed to investigate the wind speed thresholds above which a butt thrown on the road is unlikely to stay on the road surface but will roll with the wind. The work was done for three road surfaces: asphalt, cement, and compacted soil. The experiments demonstrated that a lower wind speed is necessary for cigarette butts to start rolling from a still condition than the wind speed needed for whole cigarettes. Three wind speed thresholds, 0.88 m s–1 for asphalt, 1.63 m s–1 for cement, and 2.33 m s–1 for compacted soil, represent a conservative lower limit below which movement of still butts is highly unlikely. Three logistic regression equations were developed for calculating the probability that a cigarette butt thrown on the road surface under wind will continue to roll. They show that for wind speeds of less than 4.5 m s–1, a cigarette butt thrown on a dirt road is much less likely to be carried by the wind than if it was thrown on an asphalt or cement surface. The wind speed values refer to a height of 5 cm. The present paper provides a discussion of how this value relates to commonly used meteorological wind previsions. It also includes an example of how the findings can be used for fire prevention purposes.


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