Pauline Bartoli scite author profile

Pauline Bartoli

2Publications

89Citation Statements Received

102Citation Statements Given

How they've been cited

118

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Affiliations

University of Corsica Pascal Paoli, French National Centre for Scientific Research, University of Edinburgh

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Flammability studies for wildland and wildland–urban interface fires applied to pine needles and solid polymers

Simeoni

Thomas

Bartoli

et al. 2012

Fire Safety Journal

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This paper presents flammability studies related to wildland fires that have been conducted at the University of Edinburgh and at WPI over the last 5 years. This is the first time that all of the contributions have been put together to present a consistent set of studies geared towards a better understanding of how wildland and solid fuels ignite and burn in the context of wildland and wildland-urban interface fires. The whole approach is based on experiments conducted with the Fire Propagation Apparatus. This experimental device was used due to its versatility, allowing for testing over a wide range of conditions applied to different forest fuels. To simplify the approach, well-characterized fuels were used in the form of dead pine needles and solid polymers. The different sets of results show that this approach enhances our understanding of wildland fire behavior and impact in general but also, more specifically, at the wildland-urban interface. These experimental data, along with the models developed to describe ignition, represent a successful application and extension of approaches and techniques developed for fire safety studies to the topic of wildland fires.

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Determination of the main parameters influencing forest fuel combustion dynamics

Bartoli

Simeoni

Biteau

et al. 2011

Fire Safety Journal

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a b s t r a c tThis work aims to characterize pine needles as a fuel for a better understanding of the behaviour of forest fuels in wildland fires. It does this in two ways: classify vegetation as a fuel for forest fires and understand the role of transport mechanisms in fuel beds. For this purpose, the physical and chemical characteristics of each fuel are taken into account. Three species of pine needles were studied: Pinus halepensis, Pinus pinaster and Pinus laricio. These were chosen because they are representative of the Mediterranean ecosystem and present different characteristics such as surface-to-volume ratio and chemical composition.The experiments were performed using the FM-Global Fire Propagation Apparatus with a Fourier transform infrared gas analyser to determine the pyrolysis gases released by the three species. The heat release rate (HRR) was estimated using oxygen consumption calorimetry. Specially constructed porous sample holders were used, with different percentages of basket openings, to allow different air flow rates to pass through the fuel samples. Forced flows of different magnitudes were also imposed through the sample in some cases.In this study, the focus has been made upon the influence of the two main experimental parameters, i.e. flow conditions through the fuel bed (varying with basket opening and forced flow conditions) and fuel species particularities, on the time dependent variable HRR. Discrete variables such as time to ignition, duration of flames and mean HRR during the flame were also analysed.Flow conditions appear to be an important parameter when analysing the combustion dynamics of a porous fuel. Fuel species also have an influence on the heat release rate. The role of these parameters and their interaction prove to be more complex than anticipated. Surface-to-volume ratio and fuel packing ratios are not the only parameters governing burning dynamics, even for closely related species such as pine needles. Chemical properties have also proved to have an influence when the oxygen supply in the combustion zone is high.

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Pauline Bartoli

Flammability studies for wildland and wildland–urban interface fires applied to pine needles and solid polymers

Determination of the main parameters influencing forest fuel combustion dynamics

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