Articles citing this paper
Entrainment regimes and flame characteristics of wildland fires
Ralph M. Nelson
+ Author Affiliations
- Author Affiliations
A US Forest Service, 206 Morning View Way, Leland, NC 28451, USA. [Retired]
B US Forest Service, Rocky Mountain Research Station, Missoula Fire Sciences Laboratory, Missoula, MT 59807, USA.
C US Forest Service, Pacific Southwest Research Station, Forest Fire Laboratory, Riverside, CA 92507, USA.
D Corresponding author. Email: nelsonsally@bellsouth.net
International Journal of Wildland Fire 21(2) 127-140 https://doi.org/10.1071/WF10034
Submitted: 18 March 2010 Accepted: 23 February 2011 Published: 24 November 2011
35 articles found in Crossref database.
Observations of Turbulent Heat and Momentum Fluxes during Wildland Fires in Forested Environments
Heilman Warren E.,
Bian Xindi,
Clark Kenneth L., Zhong Shiyuan
Journal of Applied Meteorology and Climatology. 2019 58(4). p.813
Wildland fires behaviour: wind effect versus Byram’s convective number and consequences upon the regime of propagation
Morvan D., Frangieh N.
International Journal of Wildland Fire. 2018 27(9). p.636
Effects of Season on Ignition of Live Wildland Fuels Using the Forced Ignition and Flame Spread Test Apparatus
McAllister S., Weise D. R.
Combustion Science and Technology. 2017 189(2). p.231
Fire Phenomena and the Earth System (2013)
A Study of the Flow Field Surrounding Interacting Line Fires
Maynard Trevor,
Princevac Marko, Weise David R.
Journal of Combustion. 2016 2016 p.1
Interactions of fires of neighbouring shrubs in two- and three-shrub arrangements
Dahale Ambarish,
Shotorban Babak, Mahalingam Shankar
International Journal of Wildland Fire. 2015 24(5). p.624
Uncertainty associated with model predictions of surface and crown fire rates of spread
Cruz Miguel G., Alexander Martin E.
Environmental Modelling & Software. 2013 47 p.16
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2019)
Interaction of a buoyant plume with a turbulent canopy mixing layer
Chung Hayoon, Koseff Jeffrey R.
Physical Review Fluids. 2023 8(6).
Navigating scientific uncertainty in wildfire and flood risk mitigation: A qualitative review
Neale Timothy, Weir Jessica K.
International Journal of Disaster Risk Reduction. 2015 13 p.255
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
Numerical analysis of wind velocity effects on fire-wind enhancement
Eftekharian Esmaeel,
Ghodrat Maryam,
He Yaping,
Ong Robert H.,
Kwok Kenny C.S., Zhao Ming
International Journal of Heat and Fluid Flow. 2019 80 p.108471
Metal vapor micro-jet controls material redistribution in laser powder bed fusion additive manufacturing
Ly Sonny,
Rubenchik Alexander M.,
Khairallah Saad A.,
Guss Gabe, Matthews Manyalibo J.
Scientific Reports. 2017 7(1).
Numerical Analysis of the Effect of Fire Source Configuration on Fire-Wind Enhancement
Eftekharian Esmaeel,
Ghodrat Maryam,
He Yaping,
Ong Robert H.,
Kwok Kenny C. S., Zhao Ming
Heat Transfer Engineering. 2021 42(1). p.41
ISPH modelling of transient natural convection
Danis M. E.,
Orhan M., Ecder A.
International Journal of Computational Fluid Dynamics. 2013 27(1). p.15
Effects of cross airflow and burner distance on temperature profile and flame morphology of dual tandem pool fires
Chen Yuhang,
Zhang Xiaolei,
Miao Yanli, Hu Longhua
Fuel. 2022 317 p.123220
Investigation of fire-driven cross-wind velocity enhancement
Eftekharian Esmaeel,
He Yaping,
Kwok Kenny C.S.,
Ong Robert H., Yuan Jianping
International Journal of Thermal Sciences. 2019 141 p.84
QUIC-fire: A fast-running simulation tool for prescribed fire planning
Linn R.R.,
Goodrick S.L.,
Brambilla S.,
Brown M.J.,
Middleton R.S.,
O'Brien J.J., Hiers J.K.
Environmental Modelling & Software. 2020 125 p.104616
An extensive numerical study of the burning dynamics of wildland fuel using proposed configuration space
Zhang Kai, Lamorlette Aymeric
International Journal of Heat and Mass Transfer. 2020 160 p.120174
Landscape Fire, Smoke, and Health (2023)
On the Use of Semi-empirical Flame Models for Spreading Chaparral Crown Fire
Cobian-Iñiguez Jeanette,
Aminfar AmirHessam,
Weise David R., Princevac Marko
Frontiers in Mechanical Engineering. 2019 5
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
Examination of the wind speed limit function in the Rothermel surface fire spread model
Andrews Patricia L.,
Cruz Miguel G., Rothermel Richard C.
International Journal of Wildland Fire. 2013 22(7). p.959
Applied Mathematics for Environmental Problems (2021)
Innovative approach to the assessment of moisture content of forest areas within the framework of the fundamental multi-layered concept
Kamalova N S,
Evsikova N Yu, Saushkin V V
IOP Conference Series: Earth and Environmental Science. 2019 392(1). p.012043
Fire-spotting generated fires. Part II: The role of flame geometry and slope
Egorova Vera N.,
Trucchia Andrea, Pagnini Gianni
Applied Mathematical Modelling. 2022 104 p.1
Wildland surface fire spread: Mechanism transformation and behavior transition
Liu Naian
Fire Safety Journal. 2023 141 p.103974
Effect of flame zone depth on the correlation of flame length with fireline intensity
Finney Mark A., Grumstrup Torben P.
International Journal of Wildland Fire. 2023 32(7). p.1135
Monitoring of the temperature distribution in prediction of forest fires
Камалова ,
Kamalova Nina,
Евсикова ,
Evsikova Natalya,
Матвеев ,
Matveev Nikolay,
Лисицин , Lisitsin V.
Forestry Engineering Journal. 2015 5(4). p.16
Uncertainty quantification of forecast error in coupled fire–atmosphere wildfire spread simulations: sensitivity to the spatial resolution
Ciri U.,
Garimella M. M.,
Bernardoni F.,
Bennett R. L., Leonardi S.
International Journal of Wildland Fire. 2021 30(10). p.790
Comparison of fire-produced gases from wind tunnel and small field experimental burns
Weise David R.,
Hao Wei Min,
Baker Stephen,
Princevac Marko,
Aminfar Amir-Hessam,
Palarea-Albaladejo Javier,
Ottmar Roger D.,
Hudak Andrew T.,
Restaino Joseph, O’Brien Joseph J.
International Journal of Wildland Fire. 2022 31(4). p.409
Using a rainforest-flame forest mosaic to test the hypothesis that leaf and litter fuel flammability is under natural selection
Clarke Peter J.,
Prior Lynda D.,
French Ben J.,
Vincent Ben,
Knox Kirsten J. E., Bowman David M. J. S.
Oecologia. 2014 176(4). p.1123
A study of the canopy effect on fire regime transition using an objectively defined Byram convective number
Zhang Kai,
Verma Salman,
Trouvé Arnaud, Lamorlette Aymeric
Fire Safety Journal. 2020 112 p.102950
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
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
