Ignition Mechanisms and Flame Evolution of Single Particles and Clouds of Pulverised Coal under Microgravity Condition. Gravity obscures some of the most subtle phenomena that are key to answering outstanding questions today, including combustion phenomena. The main scientific benefit from this fundamental research stems from the fact that it addresses far-reaching issues that transcend the boundaries of combustion science. It provides a rare opportunity to observe and understand the fundamental ....Ignition Mechanisms and Flame Evolution of Single Particles and Clouds of Pulverised Coal under Microgravity Condition. Gravity obscures some of the most subtle phenomena that are key to answering outstanding questions today, including combustion phenomena. The main scientific benefit from this fundamental research stems from the fact that it addresses far-reaching issues that transcend the boundaries of combustion science. It provides a rare opportunity to observe and understand the fundamental phenomena of combustion beyond the limitation of gravity on the earth surface, thus enriching our body of knowledge in this area. This new knowledge will provide a foundation for tomorrow's combustion science and technology.Read moreRead less
Carbon surface oxides: the key to understanding the chemical rate of carbon combustion. This project employs a unique combination of experimental measurements and fundamental quantum chemical calculations to study the oxides which form on the surface of carbon as it burns. Our objective is to develop a quantitative model for the kinetics of carbon combustion which will be a profound improvement over existing approaches. Such a model would provide the basis for the improved prediction of carbon c ....Carbon surface oxides: the key to understanding the chemical rate of carbon combustion. This project employs a unique combination of experimental measurements and fundamental quantum chemical calculations to study the oxides which form on the surface of carbon as it burns. Our objective is to develop a quantitative model for the kinetics of carbon combustion which will be a profound improvement over existing approaches. Such a model would provide the basis for the improved prediction of carbon combustion and gasification in current (coal-burning) power generation appliances, as well as catering for new approaches to lowering greenhouse emissions which also depend on the combustion and gasification of carbon as coal, biomass or refuse-derived fuel.Read moreRead less