Articles citing this paper
Experimental measurements during combustion of moist individual foliage samplesA
Brent M. Pickett A , Carl Isackson A , Rebecca Wunder A , Thomas H. Fletcher A D , Bret W. Butler B and David R. Weise C
+ Author Affiliations
- Author Affiliations
A Department of Chemical Engineering, Brigham Young University, Provo, UT 84602, USA.
B USDA Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory, Missoula, MT 59808, USA.
C USDA Forest Service, Pacific Southwest Research Station, Forest Fire Laboratory, Riverside, CA 92507, USA.
D Corresponding author. Email: tom_fletcher@byu.edu
International Journal of Wildland Fire 19(2) 153-162 https://doi.org/10.1071/WF07121
Submitted: 2 August 2007 Accepted: 22 January 2009 Published: 31 March 2010
54 articles found in Crossref database.
Glowing and flaming autoignition of wood exposed to coupled convective and radiative heating
Gong Junhui,
Lin Hu,
Cui Tong,
Lian Haochen,
Li Lun, Zhao Kun
Fuel. 2024 363 p.130867
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
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
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
What type of rainforest burnt in the South East Queensland's 2019/20 bushfires and how might this impact biodiversity
Thorley James,
Srivastava Sanjeev Kumar, Shapcott Alison
Austral Ecology. 2023 48(3). p.616
Live Fuel Moisture Content: The ‘Pea Under the Mattress’ of Fire Spread Rate Modeling?
Rossa Carlos G., Fernandes Paulo M.
Fire. 2018 1(3). p.43
Pyrolysis kinetics of live and dead wildland vegetation from the Southern United States
Amini Elham,
Safdari Mohammad-Saeed,
Weise David R., Fletcher Thomas H.
Journal of Analytical and Applied Pyrolysis. 2019 142 p.104613
Experimental study on the burning behaviour of Pinus halepensis needles using small‐scale fire calorimetry of live, aged and dead samples
Jervis Freddy X., Rein Guillermo
Fire and Materials. 2016 40(3). p.385
Tissue-Level Flammability Testing: A Review of Existing Methods and a Comparison of a Novel Hot Plate Design to an Epiradiator Design
Celebrezze Joe V.,
Boving Indra, Moritz Max A.
Fire. 2023 6(4). p.149
Fire Safety for Green Façades: Part 1: Basics, State-of-the-Art Research and Experimental Investigation of Plant Flammability
Engel Thomas, Werther Norman
Fire Technology. 2024 60(3). p.2177
The Flammability of Forest and Woodland Litter: a Synthesis
Varner J. Morgan,
Kane Jeffrey M.,
Kreye Jesse K., Engber Eamon
Current Forestry Reports. 2015 1(2). p.91
Pyrolysis and Combustion Characteristics of Leaf-like Fuel under Convection and Radiation Heating
Rahimi Borujerdi Peyman, Shotorban Babak
Combustion Science and Technology. 2022 194(12). p.2558
An Investigation of Oxygen Availability in Spreading Fires
Howell Alexandra N.,
Belmont Erica L.,
McAllister Sara S., Finney Mark A.
Fire Technology. 2023 59(4). p.2147
The effect of moisture content and thermal behaviour on the ignition of
Ramadhan Mohamad L.,
Carrascal Jeronimo,
Osorio Andres, Hidalgo Juan P.
International Journal of Wildland Fire. 2021 30(9). p.680
Wildfire occurrence patterns in ecoregions of New South Wales and Australian Capital Territory, Australia
Zhang Yang,
Lim Samsung, Sharples Jason John
Natural Hazards. 2017 87(1). p.415
Semi-empirical Model for Fire Spread in Shrubs with Spatially-Defined Fuel Elements and Flames
Prince Dallan,
Shen Chen, Fletcher Thomas
Fire Technology. 2017 53(3). p.1439
An improved non-equilibrium model for the ignition of living fuel
Lamorlette A.,
El Houssami M., Morvan D.
International Journal of Wildland Fire. 2018 27(1). p.29
Fuels and fire behavior dynamics in bark beetle-attacked forests in Western North America and implications for fire management
Jenkins Michael J.,
Page Wesley G.,
Hebertson Elizabeth G., Alexander Martin E.
Forest Ecology and Management. 2012 275 p.23
Flammability and the Heat of Combustion of Natural Fuels: A Review
Rivera Juan de Dios,
Davies G. Matt, Jahn Wolfram
Combustion Science and Technology. 2012 184(2). p.224
Short communication: On the effect of live fuel moisture content on fire-spread rate
Rossa Carlos G., Fernandes Paulo M.
Forest Systems. 2018 26(3). p.eSC08
The effects of wind on the flame characteristics of individual leaves
Cole Wesley J.,
Dennis McKaye H.,
Fletcher Thomas H., Weise David R.
International Journal of Wildland Fire. 2011 20(5). p.657
A comparison of two methods for estimating conifer live foliar moisture content
Jolly W. Matt, Hadlow Ann M.
International Journal of Wildland Fire. 2012 21(2). p.180
Physics-Based Modeling of Live Wildland Fuel Ignition Experiments in the Forced Ignition and Flame Spread Test Apparatus
Anand C.,
Shotorban B.,
Mahalingam S.,
McAllister S., Weise D. R.
Combustion Science and Technology. 2017 189(9). p.1551
Inside the Inferno: Fundamental Processes of Wildland Fire Behaviour
Sullivan Andrew L.
Current Forestry Reports. 2017 3(2). p.132
A physics-based ignition model with detailed chemical kinetics for live fuel burning studies
Behnoudfar Diba, Niemeyer Kyle E.
Combustion and Flame. 2024 265 p.113487
On the need for a theory of wildland fire spread
Finney Mark A.,
Cohen Jack D.,
McAllister Sara S., Jolly W. Matt
International Journal of Wildland Fire. 2013 22(1). p.25
Flammability of some companion species in cork oak (Quercus suber L.) forests
Dehane Belkheir,
Hernando Carmen,
Guijarro Mercedes, Madrigal Javier
Annals of Forest Science. 2017 74(3).
Effect of particle orientation and of flow velocity on the combustibility of Pinus pinaster and Eucalyptus globulus firebrand material
Almeida Miguel,
Viegas Domingos Xavier,
Miranda Ana Isabel, Reva Valeria
International Journal of Wildland Fire. 2011 20(8). p.946
Differences in Burning Behavior of Live and Dead Leaves, Part 1: Measurements
Prince Dallan R., Fletcher Thomas H.
Combustion Science and Technology. 2014 186(12). p.1844
Wildland - urban interface fire behaviour and fire modelling in live fuels
Weise David R., Wotton B. Mike
International Journal of Wildland Fire. 2010 19(2). p.149
Relevance of terpenoids on flammability of Mediterranean species: an experimental approach at a low radiant heat flux
Della Rocca G,
Madrigal J,
Marchi E,
Michelozzi M,
Moya B, Danti R
iForest - Biogeosciences and Forestry. 2017 10(5). p.766
Transition from Surface to Crown Fires: Effects of Moisture Content
Mišić Nikola,
Protić Milan,
Cerdà Artemi,
Raos Miomir, Blagojević Milan
Fire Technology. 2024 60(1). p.669
A computational study of burning of vertically oriented leaves with various fuel moisture contents by upward convective heating
Borujerdi Peyman Rahimi,
Shotorban Babak, Mahalingam Shankar
Fuel. 2020 276 p.118030
Physicochemical characteristics controlling the flammability of live
Campos-Ruiz Rodrigo,
Parisien Marc-André, Flannigan Mike D.
International Journal of Wildland Fire. 2022 31(9). p.857
Influence of fuel moisture content on the burning of cistus shrubs exposed to a low-intensity fire
Luciani C.,
Tihay-Felicelli V.,
Martinent B.,
Santoni P.A.,
Morandini F., Barboni T.
Fire Safety Journal. 2024 146 p.104168
Experimental investigation of flammability and numerical study of combustion of shrub of rockrose under severe drought conditions
Morandini F.,
Santoni P.A.,
Tramoni J.B., Mell W.E.
Fire Safety Journal. 2019 108 p.102836
Characteristics of Pyrolysis Products of California Chaparral and Their Potential Effect on Wildland Fires
Alizadeh Mahsa,
Weise David R., Fletcher Thomas H.
Fire. 2024 7(8). p.271
Forest Fuel Drying, Pyrolysis and Ignition Processes during Forest Fire: A Review
Baranovskiy Nikolay Viktorovich, Kirienko Viktoriya Andreevna
Processes. 2022 10(1). p.89
A Review on Flaming Ignition of Solid Combustibles: Pyrolysis Kinetics, Experimental Methods and Modelling
Gong Junhui, Yang Lizhong
Fire Technology. 2024 60(2). p.893
A numerical investigation of the influence of radiation and moisture content on pyrolysis and ignition of a leaf-like fuel element
Yashwanth B.L.,
Shotorban B.,
Mahalingam S.,
Lautenberger C.W., Weise D.R.
Combustion and Flame. 2016 163 p.301
An investigation of pyrolysis and ignition of moist leaf-like fuel subject to convective heating
Shotorban Babak,
Yashwanth Banglore L.,
Mahalingam Shankar, Haring Dakota J.
Combustion and Flame. 2018 190 p.25
ANALYSIS OF DROPLET EJECTION AND OTHER BURNING STAGES FOR SALAL LEAVES DURING CONVECTIVE HEATING
Proceeding of 9th Thermal and Fluids Engineering Conference (TFEC) (2024)
The effect of fuel moisture content on the spread rate of forest fires in the absence of wind or slope
Rossa Carlos G.
International Journal of Wildland Fire. 2017 26(1). p.24
Stages and time-scales of ignition and burning of live fuels for different convective heat fluxes
Fazeli Hamid,
Jolly William M., Blunck David L.
Fuel. 2022 324 p.124490
Influence of Pyrolysis Gas Composition and Reaction Kinetics on Leaf-Scale Fires
Rahimi Borujerdi Peyman,
Shotorban Babak,
Mahalingam Shankar, Weise David R.
Combustion Science and Technology. 2022 p.1
Assessing the effect of foliar moisture on the spread rate of crown fires
Alexander Martin E., Cruz Miguel G.
International Journal of Wildland Fire. 2013 22(4). p.415
Comparison of pyrolysis of live wildland fuels heated by radiation vs. convection
Safdari Mohammad-Saeed,
Amini Elham,
Weise David R., Fletcher Thomas H.
Fuel. 2020 268 p.117342
Plant traits linked to field-scale flammability metrics in prescribed burns in Eucalyptus forest
Tumino Bianca J.,
Duff Thomas J.,
Goodger Jason Q. D.,
Cawson Jane G., Lázaro Amparo
PLOS ONE. 2019 14(8). p.e0221403
Effects of wildland fuel moisture content on radiant heat flux emitted by a laminar non-premixed flame
Pinto P.,
Cabrera A.,
Cruz J.J.,
Contreras J.,
Severino G.,
Demarco R.,
Elicer-Cortés J.C., Fuentes A.
Applied Thermal Engineering. 2020 181 p.115968
Phases and Time-Scales of Ignition and Burning of Live Fuels
Fazeli Hamid,
Jolly William M., Blunck David L.
SSRN Electronic Journal . 2022
Mathematical Simulation of Forest Fuel Pyrolysis in One-Dimensional Statement Taking into Account Soot Formation
Baranovskiy Nikolay, Kirienko Viktoriya
Processes. 2021 9(9). p.1616
Effect of live/dead condition, moisture content and particle size on flammability of gorse (Ulex europaeus) measured with a cone calorimeter
Melnik Katharine O.,
Valencia Andres,
Katurji Marwan,
Nilsson Daniel,
Baker Greg,
Melnik Oleg M.,
Pearce H. Grant, Strand Tara M.
International Journal of Wildland Fire. 2024 33(7).
Fuel Element Combustion Properties for Live Wildland Utah Shrubs
Shen Chen, Fletcher Thomas H.
Combustion Science and Technology. 2015 187(3). p.428
Hyperspectral remote sensing of fire: State-of-the-art and future perspectives
Veraverbeke Sander,
Dennison Philip,
Gitas Ioannis,
Hulley Glynn,
Kalashnikova Olga,
Katagis Thomas,
Kuai Le,
Meng Ran,
Roberts Dar, Stavros Natasha
Remote Sensing of Environment. 2018 216 p.105
