Wildland surface fire spread modelling, 1990–2007. 1: Physical and quasi-physical models AL Sullivan International Journal of Wildland Fire 18 (4), 349-368, 2009 | 569 | 2009 |
Grassfires: fuel, weather and fire behaviour P Cheney, A Sullivan Csiro Publishing, 2008 | 491 | 2008 |
Wildland surface fire spread modelling, 1990–2007. 2: Empirical and quasi-empirical models AL Sullivan International Journal of Wildland Fire 18 (4), 369-386, 2009 | 490 | 2009 |
Anatomy of a catastrophic wildfire: the Black Saturday Kilmore East fire in Victoria, Australia MG Cruz, AL Sullivan, JS Gould, NC Sims, AJ Bannister, JJ Hollis, ... Forest Ecology and Management 284, 269-285, 2012 | 449 | 2012 |
Wildland surface fire spread modelling, 1990–2007. 3: Simulation and mathematical analogue models AL Sullivan International Journal of Wildland Fire 18 (4), 387-403, 2009 | 408 | 2009 |
4 Fire Behaviour P Cheney, A Sullivan Grassfires, 31, 2008 | 386 | 2008 |
Project Vesta—Fire in Dry Eucalypt Forest: Fuel Structure JS Gould, WL McCaw, NP Cheney, PF Ellis, IK Knight, AL Sullivan Fuel Dynamics and Fire Behaviour, 2007 | 305* | 2007 |
Fuel, fire weather and fire behaviour in Australian ecosystems AL Sullivan, WL McCaw, MG Cruz, S Matthews, PF Ellis Flammable Australia: fire regimes, biodiversity and ecosystems in a changing …, 2012 | 174 | 2012 |
Thermal decomposition and combustion chemistry of cellulosic biomass AL Sullivan, R Ball Atmospheric Environment 47, 133-141, 2012 | 173 | 2012 |
A review of radiant heat flux models used in bushfire applications AL Sullivan, PF Ellis, IK Knight International Journal of Wildland Fire 12 (1), 101-110, 2003 | 135 | 2003 |
Climate change, fuel and fire behaviour in a eucalypt forest S Matthews, AL Sullivan, P Watson, RJ Williams Global Change Biology 18 (10), 3212-3223, 2012 | 122 | 2012 |
SPARK–A bushfire spread prediction tool C Miller, J Hilton, A Sullivan, M Prakash Environmental Software Systems. Infrastructures, Services and Applications …, 2015 | 109 | 2015 |
A real-time computer application for the prediction of fire spread across the Australian landscape JR Coleman, AL Sullivan Simulation 67 (4), 230-240, 1996 | 109 | 1996 |
Empirical-based models for predicting head-fire rate of spread in Australian fuel types MG Cruz, JS Gould, ME Alexander, AL Sullivan, WL McCaw, S Matthews Australian Forestry 78 (3), 118-158, 2015 | 108 | 2015 |
A guide to rate of fire spread models for Australian vegetation MG Cruz, JS Gould, ME Alexander, AL Sullivan, WL McCaw, S Matthews Australasian Fire and Emergency Service Authorities Council Limited and …, 2015 | 86 | 2015 |
Inside the inferno: fundamental processes of wildland fire behaviour Part 2: Heat transfer and interactions AL Sullivan Current Forestry Reports 3 (2), 150-171, 2017 | 84 | 2017 |
Electrically caused wildfires in Victoria, Australia are over-represented when fire danger is elevated C Miller, M Plucinski, A Sullivan, A Stephenson, C Huston, K Charman, ... Landscape and Urban Planning 167, 267-274, 2017 | 74 | 2017 |
Effects of spatial and temporal variation in environmental conditions on simulation of wildfire spread JE Hilton, C Miller, AL Sullivan, C Rucinski Environmental Modelling & Software 67, 118-127, 2015 | 71 | 2015 |
Assessing improvements in models used to operationally predict wildland fire rate of spread MG Cruz, ME Alexander, AL Sullivan, JS Gould, M Kilinc Environmental Modelling & Software 105, 54-63, 2018 | 66 | 2018 |
A review of wildland fire spread modelling, 1990-present, 1: Physical and quasi-physical models AL Sullivan arXiv preprint arXiv:0706.3074, 2007 | 63 | 2007 |