Simulation Technology for Modelling Extreme Bushfire Behaviour. Extreme fires cause immeasurable damage to communities through destruction of homes and damage to infrastructure. Large, highly intense fires reduce biodiversity, take decades for recovery, increase greenhouse gas emissions and reduce carbon storage capacity. Climate change is likely to increase the frequency of extreme fire weather increasing the need for reliable fire spread prediction under extreme conditions and to reduce impa ....Simulation Technology for Modelling Extreme Bushfire Behaviour. Extreme fires cause immeasurable damage to communities through destruction of homes and damage to infrastructure. Large, highly intense fires reduce biodiversity, take decades for recovery, increase greenhouse gas emissions and reduce carbon storage capacity. Climate change is likely to increase the frequency of extreme fire weather increasing the need for reliable fire spread prediction under extreme conditions and to reduce impact by preparedness and suppression. Incorporating an evidence-based fire spread model into a fire location forecasting system will give fire agencies early warning of potentially disastrous fires, enable early response to prevent fires and mitigate the consequence to life, property and the environment. Read moreRead less
Coupled Atmosphere-Bushfire Modelling with Application to Canberra 2003. Large bushfires are by far the largest contributor to property losses in Australia. Prescribed fire is an important land management tool for farmers, foresters and park managers among others. There is a need to develop practical and accurate tools for predicting the behaviour and spread of both prescribed and uncontrolled fires. Australian bushfire research and land management would benefit greatly from the application of m ....Coupled Atmosphere-Bushfire Modelling with Application to Canberra 2003. Large bushfires are by far the largest contributor to property losses in Australia. Prescribed fire is an important land management tool for farmers, foresters and park managers among others. There is a need to develop practical and accurate tools for predicting the behaviour and spread of both prescribed and uncontrolled fires. Australian bushfire research and land management would benefit greatly from the application of modern, advanced computational methods. The time is ripe for the huge advances in computer technology and numerical modelling to be applied directly to fire problems, benefiting public safety and the safety of fire-fighting volunteers.Read moreRead less