Articles citing this paper
cfArticle2ecfc1291681887$funcTITLE@473831c2
Miguel Almeida A , Domingos Xavier Viegas A B D , Ana Isabel Miranda C and Valeria Reva A
+ Author Affiliations
- Author Affiliations
A ADAI/LAETA, Associação para o Desenvolvimento da Aerodinâmica Industrial, Rua Pedro Hispano, 12, 3030-289 Coimbra, Portugal.
B Department of Mechanical Engineering, University of Coimbra, Rua Luís Reis dos Santos, 3030-788 Coimbra, Portugal.
C CESAM, Department of Environment and Planning, University of Aveiro, 3810-193 Aveiro, Portugal.
D Corresponding author. Email: xavier.viegas@dem.uc.pt
International Journal of Wildland Fire 20(8) 946-962 https://doi.org/10.1071/WF09080
Submitted: 21 July 2009 Accepted: 21 April 2011 Published: 5 October 2011
16 articles found in Crossref database.
Ignition of Mediterranean Fuel Beds by Several Types of Firebrands
Viegas D. X.,
Almeida M.,
Raposo J.,
Oliveira R., Viegas C. X.
Fire Technology. 2014 50(1). p.61
Firebrand characteristics of the stringy bark of messmate (Eucalyptus obliqua) investigated using non-tethered samples
Ellis P. F. M.
International Journal of Wildland Fire. 2013 22(5). p.642
Ignition of Fuel Beds by Cigarettes: A Conceptual Model to Assess Fuel Bed Moisture Content and Wind Velocity Effect on the Ignition Time and Probability
Viegas Domingos Xavier,
Oliveira Ricardo,
Almeida Miguel, Kim Donghyun
Fire. 2021 4(3). p.35
Forest fire fuel through the lens of remote sensing: Review of approaches, challenges and future directions in the remote sensing of biotic determinants of fire behaviour
Gale Matthew G.,
Cary Geoffrey J.,
Van Dijk Albert I.J.M., Yebra Marta
Remote Sensing of Environment. 2021 255 p.112282
Long-distance spotting potential of bark strips of a ribbon gum (Eucalyptus viminalis)
Hall James,
Ellis Peter F.,
Cary Geoffrey J.,
Bishop Glenys, Sullivan Andrew L.
International Journal of Wildland Fire. 2015 24(8). p.1109
Firebrand burning under wind: an experimental study
Yan Weidong,
Liu Naian,
Zhu Hong,
Chen Haixiang,
Xie Xiaodong,
Gao Wei, Du Zhihao
International Journal of Wildland Fire. 2024 33(4).
Research on the Setting of Australian Mountain Fire Emergency Center Based on K-Means Algorithm
Tang Chenyang,
Zhang Hanwen,
Liu Songze,
Zhu Guanlin,
Sun Minghao,
Wu Yushuai,
Gan Yongde, Xu Zeshui
Mathematical Problems in Engineering. 2021 2021 p.1
A Probabilistic Method Predicting Forest Fire Occurrence Combining Firebrands and the Weather-Fuel Complex in the Northern Part of the Daxinganling Region, China
Sun Ping, Zhang Yunlin
Forests. 2018 9(7). p.428
Fire Phenomena and the Earth System (2013)
Determination of smoldering time and thermal characteristics of firebrands under laboratory conditions
Fateev Vladimir,
Agafontsev Mikhail,
Volkov Sergey, Filkov Alexander
Fire Safety Journal. 2017 91 p.791
Combustion of eucalyptus bark firebrands in varying flow incidence and velocity conditions
Almeida Miguel,
Viegas D. X., Miranda A. I.
International Journal of Wildland Fire. 2013 22(7). p.980
A review of thermal exposure and fire spread mechanisms in large outdoor fires and the built environment
Filkov Alexander I.,
Tihay-Felicelli Virginie,
Masoudvaziri Nima,
Rush David,
Valencia Andres,
Wang Yu,
Blunck David L.,
Valero Mario Miguel,
Kempna Kamila,
Smolka Jan,
De Beer Jacques,
Campbell-Lochrie Zakary,
Centeno Felipe Roman,
Ibrahim Muhammad Asim,
Lemmertz Calisa Katiuscia, Tam Wai Cheong
Fire Safety Journal. 2023 140 p.103871
A mathematical model for predicting the maximum potential spotting distance from a crown fire
Albini Frank A.,
Alexander Martin E., Cruz Miguel G.
International Journal of Wildland Fire. 2012 21(5). p.609
Timing of fire relative to seed development may enable non-serotinous species to recolonize from the aerial seed banks of fire-killed trees
Michaletz S. T.,
Johnson E. A.,
Mell W. E., Greene D. F.
Biogeosciences. 2013 10(7). p.5061
Non‐serotinous woody plants behave as aerial seed bank species when a late‐summer wildfire coincides with a mast year
Pounden Edith,
Greene David F., Michaletz Sean T.
Ecology and Evolution. 2014 4(19). p.3830
Calculation of Spotting Particles Maximum Distance in Idealised Forest Fire Scenarios
Pereira José C. F.,
Pereira José M. C.,
Leite André L. A., Albuquerque Duarte M. S.
Journal of Combustion. 2015 2015 p.1
