New bench-scale protocols for characterizing bark flammability and fire resistance in trees Application to Algerian cork
This study proposes new bench-scale protocols for evaluating the flammability of bark and its involvement in resistance of trees to fire. Samples of cork from Algerian oak forests (Quercus suber) were selected for flammability testing. A mass loss calorimeter device, arranged in the standard horizontal configuration, was used to determine Heat Release Rate and temperatures. A calibrated epiradiator, arranged in a vertical configuration (to resemble field conditions), was used to determine lethal temperatures in living tissues and to assess the inter-device reproducibility of the data. Both protocols showed good repeatability and reasonable reproducibility. The time to reach lethal temperatures beside living tissues was more than 2 min in all cases and the average time was 230 s. The resistance of cork to fire increased with the thickness of the material, showing that trees in which the cork is less than 3 cm thick are most vulnerable to fire. The importance of corkback tissue in the flammability of cork is also highlighted, indicating important differences in the flammability of industrially processed cork and natural cork. The proposed protocols can be implemented using other devices (i.e. cone calorimeter) to obtain more information about the flammability of different types of tree bark, fire resistance and heat transfer during wildfire. © 2015 The Author(s).
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| Format: | artículo biblioteca |
| Language: | English |
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Sage Publications
2015
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| Subjects: | Wildfires, Quercus suber, Mass loss calorimeter, Epiradiator, |
| Online Access: | http://hdl.handle.net/20.500.12792/989 http://hdl.handle.net/10261/292422 |
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dig-inia-es-10261-2924222023-02-20T07:28:44Z New bench-scale protocols for characterizing bark flammability and fire resistance in trees Application to Algerian cork Dehane, B. Madrigal Olmo, Javier Hernando Lara, Carmen Bouhraoua, R. Guijarro Guzmán, Mercedes Wildfires Quercus suber Mass loss calorimeter Epiradiator This study proposes new bench-scale protocols for evaluating the flammability of bark and its involvement in resistance of trees to fire. Samples of cork from Algerian oak forests (Quercus suber) were selected for flammability testing. A mass loss calorimeter device, arranged in the standard horizontal configuration, was used to determine Heat Release Rate and temperatures. A calibrated epiradiator, arranged in a vertical configuration (to resemble field conditions), was used to determine lethal temperatures in living tissues and to assess the inter-device reproducibility of the data. Both protocols showed good repeatability and reasonable reproducibility. The time to reach lethal temperatures beside living tissues was more than 2 min in all cases and the average time was 230 s. The resistance of cork to fire increased with the thickness of the material, showing that trees in which the cork is less than 3 cm thick are most vulnerable to fire. The importance of corkback tissue in the flammability of cork is also highlighted, indicating important differences in the flammability of industrially processed cork and natural cork. The proposed protocols can be implemented using other devices (i.e. cone calorimeter) to obtain more information about the flammability of different types of tree bark, fire resistance and heat transfer during wildfire. © 2015 The Author(s). 2023-02-20T07:28:44Z 2023-02-20T07:28:44Z 2015 artículo Journal of Fire Sciences 33(3): 202-217 (2015) 0734-9041 http://hdl.handle.net/20.500.12792/989 http://hdl.handle.net/10261/292422 10.1177/0734904114568858 1530-8049 en none Sage Publications |
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Wildfires Quercus suber Mass loss calorimeter Epiradiator Wildfires Quercus suber Mass loss calorimeter Epiradiator |
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Wildfires Quercus suber Mass loss calorimeter Epiradiator Wildfires Quercus suber Mass loss calorimeter Epiradiator Dehane, B. Madrigal Olmo, Javier Hernando Lara, Carmen Bouhraoua, R. Guijarro Guzmán, Mercedes New bench-scale protocols for characterizing bark flammability and fire resistance in trees Application to Algerian cork |
| description |
This study proposes new bench-scale protocols for evaluating the flammability of bark and its involvement in resistance of trees to fire. Samples of cork from Algerian oak forests (Quercus suber) were selected for flammability testing. A mass loss calorimeter device, arranged in the standard horizontal configuration, was used to determine Heat Release Rate and temperatures. A calibrated epiradiator, arranged in a vertical configuration (to resemble field conditions), was used to determine lethal temperatures in living tissues and to assess the inter-device reproducibility of the data. Both protocols showed good repeatability and reasonable reproducibility. The time to reach lethal temperatures beside living tissues was more than 2 min in all cases and the average time was 230 s. The resistance of cork to fire increased with the thickness of the material, showing that trees in which the cork is less than 3 cm thick are most vulnerable to fire. The importance of corkback tissue in the flammability of cork is also highlighted, indicating important differences in the flammability of industrially processed cork and natural cork. The proposed protocols can be implemented using other devices (i.e. cone calorimeter) to obtain more information about the flammability of different types of tree bark, fire resistance and heat transfer during wildfire. © 2015 The Author(s). |
| format |
artículo |
| topic_facet |
Wildfires Quercus suber Mass loss calorimeter Epiradiator |
| author |
Dehane, B. Madrigal Olmo, Javier Hernando Lara, Carmen Bouhraoua, R. Guijarro Guzmán, Mercedes |
| author_facet |
Dehane, B. Madrigal Olmo, Javier Hernando Lara, Carmen Bouhraoua, R. Guijarro Guzmán, Mercedes |
| author_sort |
Dehane, B. |
| title |
New bench-scale protocols for characterizing bark flammability and fire resistance in trees Application to Algerian cork |
| title_short |
New bench-scale protocols for characterizing bark flammability and fire resistance in trees Application to Algerian cork |
| title_full |
New bench-scale protocols for characterizing bark flammability and fire resistance in trees Application to Algerian cork |
| title_fullStr |
New bench-scale protocols for characterizing bark flammability and fire resistance in trees Application to Algerian cork |
| title_full_unstemmed |
New bench-scale protocols for characterizing bark flammability and fire resistance in trees Application to Algerian cork |
| title_sort |
new bench-scale protocols for characterizing bark flammability and fire resistance in trees application to algerian cork |
| publisher |
Sage Publications |
| publishDate |
2015 |
| url |
http://hdl.handle.net/20.500.12792/989 http://hdl.handle.net/10261/292422 |
| work_keys_str_mv |
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| _version_ |
1767603342979104768 |