Investigations into the Mechanisms of Reactions between Alkanes and Nitric Oxide at Low Temperatures. Energy is essential to human progress and Australia's economy is built on our energy-intense industry. In the foreseeable future, combustion of hydrocarbon fuels remains a major means of energy utilisation. The challenges are to reduce emissions and improve combustion operability. The outcomes of the present research will provide a scientific basis that enable new combustion and associated emiss ....Investigations into the Mechanisms of Reactions between Alkanes and Nitric Oxide at Low Temperatures. Energy is essential to human progress and Australia's economy is built on our energy-intense industry. In the foreseeable future, combustion of hydrocarbon fuels remains a major means of energy utilisation. The challenges are to reduce emissions and improve combustion operability. The outcomes of the present research will provide a scientific basis that enable new combustion and associated emission control technologies to be developed with potential to reduce engine knock, improve efficiency and reduce NOx emissions during the combustion of hydrocarbon fuels. This project will also offer an excellent opportunity to develop future combustion scientists and technologies through postgraduate research training.Read moreRead less
Laser Diagnostics of Soot Formation in Precessing Jet Flames. In many practical combustion systems (e.g., boiler furnaces and rotary kilns), flame radiation is the major contributor to the required heat transfer. Soot formation is a means of enhancing flame radiation provided the soot is completely oxidised within the flame so that there are no soot emissions. The enhanced flame radiation can have a significant economic and environmental impact on plant operation (changes to the parameters tha ....Laser Diagnostics of Soot Formation in Precessing Jet Flames. In many practical combustion systems (e.g., boiler furnaces and rotary kilns), flame radiation is the major contributor to the required heat transfer. Soot formation is a means of enhancing flame radiation provided the soot is completely oxidised within the flame so that there are no soot emissions. The enhanced flame radiation can have a significant economic and environmental impact on plant operation (changes to the parameters that influence soot formation can also influence NOx and greenhouse gas emissions). The objectives of this project are to identify and quantify the operating parameters that influence soot formation and destruction in such flames.Read moreRead less