Articles citing this paper
An effective wind speed for models of fire spread
Ralph M. Nelson, Jr.
11(2) pp.153 - 161
53 articles found in Crossref database.
A Mathematical Model For Forest Fires Blowup
Xavier Viegas Domingos
Combustion Science and Technology. 2004 177(1). p.27
Effect of Slope on the Frequency and Height of Fire Whirls
Wang Yifan, Zhou Kuibin
Fire. 2023 6(5). p.189
LES simulation of terrain slope effects on wind enhancement by a point source fire
Eftekharian Esmaeel,
Rashidi Maria,
Ghodrat Maryam,
He Yaping, Kwok Kenny C.S.
Case Studies in Thermal Engineering. 2020 18 p.100588
Spectral indices and fire behavior simulation for fire risk assessment in savanna ecosystems
Mbow Cheikh,
Goı̈ta Kalifa, Bénié Goze B
Remote Sensing of Environment. 2004 91(1). p.1
A numerical study of slope and fuel structure effects on coupled wildfire behaviour
Linn Rodman R.,
Winterkamp Judith L.,
Weise David R., Edminster Carleton
International Journal of Wildland Fire. 2010 19(2). p.179
Fire behavior in chaparral–Evaluating flame models with laboratory data
Weise David R.,
Fletcher Thomas H.,
Cole Wesley,
Mahalingam Shankar,
Zhou Xiangyang,
Sun Lulu, Li Jing
Combustion and Flame. 2018 191 p.500
Identification and hierarchical structure of cause factors for fire following earthquake using data mining and interpretive structural modeling
He Zheng, Elhami Khorasani Negar
Natural Hazards. 2022 112(1). p.947
Physically motivated empirical models for the spread and intensity of grass fires
Higgins Steven I.,
Bond William J.,
Trollope Winston S. W., Williams Richard J.
International Journal of Wildland Fire. 2008 17(5). p.595
Fire Behavior Prediction with Artificial Intelligence in Thinned Black Pine (Pinus Nigra Arnold) Stand
Kucuk Omer, Sevinc Volkan
SSRN Electronic Journal . 2022
Effects of wildland fire smoke on a tree-roosting bat: integrating a plume model, field measurements, and mammalian dose–response relationships
Dickinson M. B.,
Norris J. C.,
Bova A. S.,
Kremens R. L.,
Young V., Lacki M. J.
Canadian Journal of Forest Research. 2010 40(11). p.2187
Numerical study of an experimental high-intensity prescribed fire across Corsican Genista salzmannii vegetation
Fayad Jacky,
Rossi Lucile,
Frangieh Nicolas,
Awad Carmen,
Accary Gilbert,
Chatelon François-Joseph,
Morandini Frédéric,
Marcelli Thierry,
Cancellieri Valérie,
Cancellieri Dominique,
Morvan Dominique,
Pieri Antoine,
Planelles Gilles,
Costantini René,
Meradji Sofiane, Rossi Jean-Louis
Fire Safety Journal. 2022 131 p.103600
Fire intensity reduction in straw fuel beds treated with a long-term retardant
Àgueda A.,
Pastor E.,
Pérez Y.,
Viegas D.X., Planas E.
Fire Safety Journal. 2011 46(1-2). p.41
Conceptualising a GIS-based risk quantification framework for fire spread in informal settlements: A Cape Town case study
Stevens Samuel,
Gibson Lesley, Rush David
International Journal of Disaster Risk Reduction. 2020 50 p.101736
Analysis of the wind flow and fire spread dynamics over a sloped–ridgeline hill
Abouali Abdelrahman,
Viegas Domingos Xavier, Raposo Jorge Rafael
Combustion and Flame. 2021 234 p.111724
Slope effect on laboratory fire spread: contribution of radiation and convection to fuel bed preheating
Dupuy J.-L., Maréchal J.
International Journal of Wildland Fire. 2011 20(2). p.289
Experimental study on flame interaction and geometrical features of two identical fires on a slope
Zhou Kuibin,
Zhang Le,
Huang Mengyuan,
Zhou Mengya, Wang Chao
Fire Safety Journal. 2021 126 p.103463
Beyond “fire temperatures”: calibrating thermocouple probes and modeling their response to surface fires in hardwood fuels
Bova Anthony S., Dickinson Matthew B.
Canadian Journal of Forest Research. 2008 38(5). p.1008
A Study of Two High Intensity Fires across Corsican Shrubland
Fayad Jacky,
Morandini Frédéric,
Accary Gilbert,
Chatelon François-Joseph,
Wandon Clément,
Burglin Antoine,
Rossi Lucile,
Marcelli Thierry,
Cancellieri Dominique,
Cancellieri Valérie,
Morvan Dominique,
Meradji Sofiane,
Pieri Antoine,
Planelles Gilles,
Costantini René,
Briot Patrice, Rossi Jean-Louis
Atmosphere. 2023 14(3). p.473
Innovation in Smart and Sustainable Infrastructure (2024)
Forest Fire Spread and Suppression in DEVS
Ntaimo Lewis,
Zeigler Bernard P.,
Vasconcelos Maria J., Khargharia Bithika
SIMULATION. 2004 80(10). p.479
Fire behavior prediction with artificial intelligence in thinned black pine (Pinus nigra Arnold) stand
Kucuk Omer, Sevinc Volkan
Forest Ecology and Management. 2023 529 p.120707
Experimental Modeling Of The Effect Of Terrain Slope On Marginal Burning
Zhou X.,
Mahalingam S., Weise David
Fire Safety Science. 2005 8 p.863
Proceedings of the 5th International Conference on Numerical Modelling in Engineering (2023)
Simulation of the Big Elk Fire using coupled atmosphere - fire modeling
Coen Janice L.
International Journal of Wildland Fire. 2005 14(1). p.49
Physical Modeling of Surface Fire Under Nonparallel Wind and Slope Conditions
Balbi Jacques-Henri,
Rossi Jean-Louis,
Marcelli Thierry, Chatelon François-Joseph
Combustion Science and Technology. 2010 182(7). p.922
Analytical Model for Determining Thermal Radiance of Fire Plumes with Implication to Wildland Fire
Wang H.-H.
Combustion Science and Technology. 2009 181(2). p.245
Potential shifts in dominant forest cover in interior Alaska driven by variations in fire severity
Barrett K.,
McGuire A. D.,
Hoy E. E., Kasischke E. S.
Ecological Applications. 2011 21(7). p.2380
A Way Forward for Fire-Caused Tree Mortality Prediction: Modeling A Physiological Consequence of Fire
Kavanagh Kathleen L.,
Dickinson Matthew B., Bova Anthony S.
Fire Ecology. 2010 6(1). p.80
Characterization of Laboratory-Scale Fires Propagating Under the Effect of a Long-Term Retardant
Àgueda A.,
Pastor E.,
Pérez Y.,
Viegas D. X., Planas E.
Combustion Science and Technology. 2010 182(8). p.1083
Landslide Science and Practice (2013)
Review of formal methodologies for wind - slope correction of wildfire rate of spread
Sharples Jason J.
International Journal of Wildland Fire. 2008 17(2). p.179
Structural Equation Model for Burn Severity with Topographic Variables and Susceptible Forest Cover
Kim Eujin-Julia, Lee Sang-Woo
Sustainability. 2018 10(7). p.2473
Proceedings of the 4th International Symposium on Plasma and Energy Conversion (2023)
Regional Spatiotemporal Patterns of Fire in the Eurasian Subarctic Based on Satellite Imagery
Zhou Yikang,
Ji Shunping, Warner Timothy A.
Remote Sensing. 2022 14(24). p.6200
Impact of drought on wildland fires in Greece: implications of climatic change?
Dimitrakopoulos Alexandros P.,
Vlahou M.,
Anagnostopoulou Ch. G., Mitsopoulos I. D.
Climatic Change. 2011 109(3-4). p.331
Modified Quasi-Physical Grassland Fire Spread Model: Sensitivity Analysis
Mohammadian Bishe Esmaeil,
Afshin Hossein, Farhanieh Bijan
Sustainability. 2023 15(18). p.13639
A wildfire hazard assessment and map for La Plata County, Colorado, USA
Romme William H.,
Barry Peter J.,
Hanna David D.,
Floyd M. Lisa, White Scott
Fire Ecology. 2006 2(1). p.7
Wildland Fire Spread Modeling Using Convolutional Neural Networks
Hodges Jonathan L., Lattimer Brian Y.
Fire Technology. 2019 55(6). p.2115
Empirical modelling of surface fire behaviour in maritime pine stands
Fernandes Paulo M.,
Botelho Hermínio S.,
Rego Francisco C., Loureiro Carlos
International Journal of Wildland Fire. 2009 18(6). p.698
Flame Characteristics Adjacent to a Stationary Line Fire
Finney Mark A.,
Grumstrup Torben P., Grenfell Isaac
Combustion Science and Technology. 2022 194(11). p.2212
The effects of slope and fuel bed width on laboratory fire behaviour
Dupuy J.-L.,
Maréchal J.,
Portier D., Valette J.-C.
International Journal of Wildland Fire. 2011 20(2). p.272
Fire whirls induced by a line fire on a windward slope: a laboratory-scale study
Zhou Kuibin,
Wang Yifan,
Simeoni Albert, Dong Ruixing
International Journal of Wildland Fire. 2023 33(1).
Fire regimes of the Southern Appalachians may radically shift under climate change
Robbins Zachary J.,
Loudermilk E. Louise,
Mozelewski Tina G.,
Jones Kate, Scheller Robert M.
Fire Ecology. 2024 20(1).
Eruptive Behaviour of Forest Fires
Viegas D. X., Simeoni A.
Fire Technology. 2011 47(2). p.303
Effects of Low-Severity Fire on Soil Physico-Chemical Properties in an Andean Páramo in Southern Ecuador
Carrión-Paladines Vinicio,
Fries Andreas,
Hinojosa María Belén,
Oña Andy,
Álvarez Leticia Jiménez,
Benítez Ángel,
Rodríguez Fausto López, García-Ruiz Roberto
Fire. 2023 6(12). p.447
Characterisation of aerosol constituents from wildfires using satellites and model data: a case study in Knysna, South Africa
Shikwambana Lerato,
Ncipha Xolile,
Malahlela Oupa E.,
Mbatha Nkanyiso, Sivakumar Venkataraman
International Journal of Remote Sensing. 2019 40(12). p.4743
Winter and spring climate explains a large portion of interannual variability and trend in western U.S. summer fire burned area
Abolafia-Rosenzweig Ronnie,
He Cenlin, Chen Fei
Environmental Research Letters. 2022 17(5). p.054030
Lab-scale observations of flame attachment on slopes with implications for firefighter safety zones
Gallacher Jonathan R.,
Ripa Brad,
Butler Bret W., Fletcher Thomas H.
Fire Safety Journal. 2018 96 p.93
Personal thermal protection simulation under diverse wind speeds based on life-size manikin exposed to flash fire
Li Jun, Tian Miao
Applied Thermal Engineering. 2016 103 p.1381
Wildland surface fire spread modelling, 1990 - 2007. 2: Empirical and quasi-empirical models
Sullivan Andrew L.
International Journal of Wildland Fire. 2009 18(4). p.369
Impact of geophysical and anthropogenic factors on wildfire size: a spatiotemporal data-driven risk assessment approach using statistical learning
Masoudvaziri Nima,
Ganguly Prasangsha,
Mukherjee Sayanti, Sun Kang
Stochastic Environmental Research and Risk Assessment. 2022 36(4). p.1103
Coupled influences of topography and wind on wildland fire behaviour
Linn Rodman,
Winterkamp Judith,
Edminster Carleton,
Colman Jonah J., Smith William S.
International Journal of Wildland Fire. 2007 16(2). p.183
Models for Predicting Fuel Consumption in Sagebrush-Dominated Ecosystems
Wright Clinton S.
Rangeland Ecology & Management. 2013 66(3). p.254
