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 | 584 | 2009 |
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 | 505 | 2009 |
Grassfires: fuel, weather and fire behaviour P Cheney, A Sullivan Csiro Publishing, 2008 | 501 | 2008 |
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 | 455 | 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 | 422 | 2009 |
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 | 310* | 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 | 181 | 2012 |
Thermal decomposition and combustion chemistry of cellulosic biomass AL Sullivan, R Ball Atmospheric Environment 47, 133-141, 2012 | 180 | 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 | 136 | 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 | 124 | 2012 |
SPARK–A bushfire spread prediction tool C Miller, J Hilton, A Sullivan, M Prakash Environmental Software Systems. Infrastructures, Services and Applications …, 2015 | 116 | 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 | 110 | 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 | 109 | 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 | 92 | 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 | 90 | 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 | 79 | 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 | 74 | 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 | 70 | 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 |
Got to burn to learn: the effect of fuel load on grassland fire behaviour and its management implications MG Cruz, AL Sullivan, JS Gould, RJ Hurley, MP Plucinski International Journal of Wildland Fire 27 (11), 727-741, 2018 | 56 | 2018 |