Articles citing this paper
Coherent vortical structures in numerical simulations of buoyant plumes from wildland fires
Philip Cunningham A E , Scott L. Goodrick B , M. Yousuff Hussaini C and Rodman R. Linn D
+ Author Affiliations
- Author Affiliations
A Department of Meteorology and Geophysical Fluid Dynamics Institute, The Florida State University, Tallahassee, FL 32306, USA.
B USDA Forest Service, Southern Research Station, Athens, GA 30603, USA.
C School of Computational Science and Information Technology, The Florida State University, Tallahassee, FL 32306, USA.
D Earth and Environmental Sciences Division, Los Alamos National Laboratory, Los Alamos, NM 87545, USA.
E Corresponding author. Telephone: +1 850 644 4334; fax: +1 850 644 9642; email: cunningham@met.fsu.edu
International Journal of Wildland Fire 14(1) 61-75 https://doi.org/10.1071/WF04044
Submitted: 31 August 2004 Accepted: 19 October 2004 Published: 7 March 2005
56 articles found in Crossref database.
Using periodic line fires to gain a new perspective on multi-dimensional aspects of forward fire spread
Linn R.R.,
Canfield J.M.,
Cunningham P.,
Edminster C.,
Dupuy J.-L., Pimont F.
Agricultural and Forest Meteorology. 2012 157 p.60
Evidence for Tilted Toroidal Circulations in Cumulus
Damiani Rick, Vali Gabor
Journal of the Atmospheric Sciences. 2007 64(6). p.2045
Numerical simulations of grass fires using a coupled atmosphere–fire model: Basic fire behavior and dependence on wind speed
Linn Rodman R., Cunningham Philip
Journal of Geophysical Research: Atmospheres. 2005 110(D13).
Selection justification of the wood pulp and crown combustion parameters for the calculation of the crown forest fires impact on Vietnamese energy facilities
Tuan Le Anh,
Puzach Sergey,
Korolchenko Dmitriy,
Eremin M.,
Kokoreva J.,
Khasanov S.,
Maidyrova A., Ignateva S.
E3S Web of Conferences. 2023 420 p.04022
Regimes of Dry Convection above Wildfires: Sensitivity to Fire Line Details
Kiefer Michael T.,
Parker Matthew D., Charney Joseph J.
Journal of the Atmospheric Sciences. 2010 67(3). p.611
Evaluation of WRF-SFIRE performance with field observations from the FireFlux experiment
Kochanski A. K.,
Jenkins M. A.,
Mandel J.,
Beezley J. D.,
Clements C. B., Krueger S.
Geoscientific Model Development. 2013 6(4). p.1109
Idealized Numerical Simulations of the Interactions between Buoyant Plumes and Density Currents
Cunningham Philip
Journal of the Atmospheric Sciences. 2007 64(6). p.2105
Flow Visualization Study of Stationary Fire Whirls just Downwind of Meter-Scale Turbulent Flames
Shinohara Masahiko, Matsushima Sanae
Flow, Turbulence and Combustion. 2019 102(2). p.313
Large-eddy simulation of wind-driven flame in the atmospheric boundary layer
Ong R.H.,
Patruno L.,
He Y.,
Efthekarian E.,
Zhao Y.,
Hu G., Kwok K.C.S.
International Journal of Thermal Sciences. 2022 171 p.107032
Numerical and laboratory prediction of smoke lofting in the atmosphere over large area fires
Utyuzhnikov S.V.
Applied Mathematical Modelling. 2013 37(3). p.876
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2019)
Chemically reacting transverse plume
Ranjan P.,
Perez K.,
Alvarado T.,
Potter B., Breidenthal R. E.
Physical Review Fluids. 2020 5(9).
Remote Sensing and Modeling Applications to Wildland Fires (2013)
Optical Flow Techniques for Wind-Velocity Sensing on a Small Unmanned Aircraft System
AIAA Infotech @ Aerospace (2015)
Thermally Induced Convective Circulation and Precipitation over an Isolated Volcano
Poulidis Alexandros P.,
Renfrew Ian A., Matthews Adrian J.
Journal of the Atmospheric Sciences. 2016 73(4). p.1667
Flame interaction and tilting behavior of two tandem adjacent hydrocarbon turbulent diffusion flames in crosswind: An experimental quantification and characterization
Chen Yuhang,
Hu Longhua,
Kuang Chen,
Zhang Xiaolei,
Lin Yujie, Zhong Xinpeng
Fuel. 2021 290 p.119930
Numerical investigation of swirl effects on a short natural draft dry cooling tower under windless and crosswind conditions
Dai Yuchen,
Lu Yuanshen,
Klimenko Alexander Y.,
Wang Ying, Hooman Kamel
Applied Thermal Engineering. 2021 188 p.116628
Atmospheric interactions with wildland fire behaviour - II. Plume and vortex dynamics
Potter Brian E.
International Journal of Wildland Fire. 2012 21(7). p.802
Remote Sensing and Modeling Applications to Wildland Fires (2013)
Mobile X-Pol Radar: A New Tool for Investigating Pyroconvection and Associated Wildfire Meteorology
McCarthy Nicholas,
McGowan Hamish,
Guyot Adrien, Dowdy Andrew
Bulletin of the American Meteorological Society. 2018 99(6). p.1177
LES analysis on the effects of fire source asymmetry on enhanced wind by fire
Eftekharian Esmaeel,
Rashidi Maria,
Salehi Fatemeh, Samali Bijan
International Journal of Thermofluids. 2023 18 p.100317
Vortex strength and size of fire whirls without flames around a long narrow fire source
Shinohara Masahiko
Fire Safety Journal. 2022 129 p.103561
A fast, physically based model of firebrand transport by bushfire plumes
Kepert Jeffrey D.,
Thurston William, Tory Kevin J.
Agricultural and Forest Meteorology. 2024 345 p.109839
A Study of Two-Dimensional Dry Convective Plume Modes with Variable Critical Level Height
Kiefer Michael T.,
Lin Yuh-Lang, Charney Joseph J.
Journal of the Atmospheric Sciences. 2008 65(2). p.448
Mantras of wildland fire behaviour modelling: facts or fallacies?
Cruz Miguel G.,
Alexander Martin E., Sullivan Andrew L.
International Journal of Wildland Fire. 2017 26(11). p.973
Mean and Turbulent Flow Downstream of a Low-Intensity Fire: Influence of Canopy and Background Atmospheric Conditions
Kiefer Michael T.,
Heilman Warren E.,
Zhong Shiyuan,
Charney Joseph J., Bian Xindi
Journal of Applied Meteorology and Climatology. 2015 54(1). p.42
Near-field merging and penetration of triple starting plumes from volumetric heat sources in a calm environment
Yin Shi,
Sandberg Mats,
Lam Kit-ming, Li Yuguo
International Journal of Heat and Mass Transfer. 2017 115 p.1321
The Rapid Deployments to Wildfires Experiment (RaDFIRE): Observations from the Fire Zone
Clements Craig B.,
Lareau Neil P.,
Kingsmill David E.,
Bowers Carrie L.,
Camacho Chris P.,
Bagley Richard, Davis Braniff
Bulletin of the American Meteorological Society. 2018 99(12). p.2539
Large eddy simulation of a transitional, thermal Blasius flow at low Reynolds number
Ojofeitimi Ayodeji
International Journal of Heat and Mass Transfer. 2018 118 p.1098
Review of Vortices in Wildland Fire
Forthofer Jason M.,
Goodrick Scott L., Morvan D.
Journal of Combustion. 2011 2011(1).
Turbulent structures of buoyant jet in cross-flow studied through large-eddy simulation
Cintolesi Carlo,
Petronio Andrea, Armenio Vincenzo
Environmental Fluid Mechanics. 2019 19(2). p.401
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2019)
Isolating and Investigating Updrafts Induced by Wildland Fires Using an Airborne Doppler Lidar During FIREX‐AQ
Strobach E. J.,
Brewer W. A.,
Senff C. J.,
Baidar S., McCarty B.
Journal of Geophysical Research: Atmospheres. 2023 128(14).
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
Modeling tephra sedimentation from a Ruapehu weak plume eruption
Bonadonna C.,
Phillips J. C., Houghton B. F.
Journal of Geophysical Research: Solid Earth. 2005 110(B8).
Large eddy simulation of atypical wildland fire spread on leeward slopes
Simpson Colin C.,
Sharples Jason J.,
Evans Jason P., McCabe Matthew F.
International Journal of Wildland Fire. 2013 22(5). p.599
Turbulent kinetic energy during wildfires in the north central and north-eastern US
Heilman Warren E., Bian Xindi
International Journal of Wildland Fire. 2010 19(3). p.346
Modeling of biomass smoke injection into the lower stratosphere by a large forest fire (Part I): reference simulation
Trentmann J.,
Luderer G.,
Winterrath T.,
Fromm M. D.,
Servranckx R.,
Textor C.,
Herzog M.,
Graf H.-F., Andreae M. O.
Atmospheric Chemistry and Physics. 2006 6(12). p.5247
Large-scale fire whirl and forest fire disasters: Awareness, implications, and the need for developing preventative methods
Darwish Ahmad Adnan,
Akafuah Nelson K.,
Forthofer Jason,
Fuchihata Manabu,
Hirasawa Taro,
Kuwana Kazunori,
Nakamura Yuji,
Sekimoto Kozo,
Saito Kozo, Williams Forman A.
Frontiers in Mechanical Engineering. 2023 9
Review of Pathways for Building Fire Spread in the Wildland Urban Interface Part I: Exposure Conditions
Caton Sara E.,
Hakes Raquel S. P.,
Gorham Daniel J.,
Zhou Aixi, Gollner Michael J.
Fire Technology. 2017 53(2). p.429
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
The Spotting Distribution of Wildfires
Martin Jonathan, Hillen Thomas
Applied Sciences. 2016 6(6). p.177
Large-eddy simulation of buoyancy-driven natural ventilation in an enclosure with a point heat source
Abdalla Ibrahim E.,
Cook Malcolm J.,
Rees Simon J., Yang Zhiyin
International Journal of Computational Fluid Dynamics. 2007 21(5-6). p.231
Effects of wind speed and heat release rate on the vortex strength and size of fire whirls without an inner core of flame
Shinohara Masahiko
Fire Safety Journal. 2021 120 p.103045
A Simple Model for Wildland Fire Vortex–Sink Interactions
Quaife Bryan, Speer Kevin
Atmosphere. 2021 12(8). p.1014
LES of fire plumes subjected to crosswind inducing vertical vorticity
Barata Bruno A.C.,
Martins Francisco C., Pereira José C.F.
Fire Safety Journal. 2024 144 p.104112
Experimental study of krone burning parameters of the most common trees in Vietnam
Puzach S. V., Tuan L. A.
Pozharovzryvobezopasnost/Fire and Explosion Safety. 2020 28(6). p.10
A model to predict maximum tangential wind velocity in laboratory-scale fire whirls without flames in a crosswind
Shinohara Masahiko
Fire Safety Journal. 2024 143 p.104082
Modelling smoke transport from wildland fires: a review
Goodrick Scott L.,
Achtemeier Gary L.,
Larkin Narasimhan K.,
Liu Yongqiang, Strand Tara M.
International Journal of Wildland Fire. 2013 22(1). p.83
Regimes of Dry Convection above Wildfires: Idealized Numerical Simulations and Dimensional Analysis*
Kiefer Michael T.,
Parker Matthew D., Charney Joseph J.
Journal of the Atmospheric Sciences. 2009 66(4). p.806
Modeling Smoke Plume-Rise and Dispersion from Southern United States Prescribed Burns with Daysmoke
Achtemeier Gary L.,
Goodrick Scott A.,
Liu Yongqiang,
Garcia-Menendez Fernando,
Hu Yongtao, Odman Mehmet Talat
Atmosphere. 2011 2(3). p.358
The contribution of turbulent plume dynamics to long-range spotting
Thurston William,
Kepert Jeffrey D.,
Tory Kevin J., Fawcett Robert J. B.
International Journal of Wildland Fire. 2017 26(4). p.317
Extreme Pyroconvective Updrafts During a Megafire
Rodriguez B.,
Lareau N. P.,
Kingsmill D. E., Clements C. B.
Geophysical Research Letters. 2020 47(18).
Climatic Variability of Near-Surface Turbulent Kinetic Energy over the United States: Implications for Fire-Weather Predictions
Heilman Warren E., Bian Xindi
Journal of Applied Meteorology and Climatology. 2013 52(4). p.753
Severe convective storms initiated by intense wildfires: Numerical simulations of pyro‐convection and pyro‐tornadogenesis
Cunningham Philip, Reeder Michael J.
Geophysical Research Letters. 2009 36(12).
Wildland Fire Smoke in the United States (2022)
