New method of remote characterization of hydrocarbon films on the ocean surface through studies of wave turbulence. Development of a novel method of remote characterization of oil films on the sea surface will help early detection of oil spills in environmental monitoring. It will also be used for detection of naturally occurring oil seeps in the oil exploration on the sea shelf. The project addresses the national research priority of Environmentally Sustainable Australia and the priority goal o ....New method of remote characterization of hydrocarbon films on the ocean surface through studies of wave turbulence. Development of a novel method of remote characterization of oil films on the sea surface will help early detection of oil spills in environmental monitoring. It will also be used for detection of naturally occurring oil seeps in the oil exploration on the sea shelf. The project addresses the national research priority of Environmentally Sustainable Australia and the priority goal of developing deep earth resources. Australian industry will greatly benefit from the outcome of the project. These studies will also help advancing Australia's position at the forefront of remote sensing research. Australian undergraduate, postgraduate and research training is an integral part of the project.Read moreRead less
Flow generation on the water surface. This project focuses on the efficient use of the energy of surface waves. It has been found recently that energy of surface waves can be converted and stored in the horizontal water motion near the surface. This project aims to develop new technologies to harness wave energy, including a novel method of accumulating the energy of random waves into a stationary surface flow and novel methods of manipulating floating objects by sending surface waves. This may ....Flow generation on the water surface. This project focuses on the efficient use of the energy of surface waves. It has been found recently that energy of surface waves can be converted and stored in the horizontal water motion near the surface. This project aims to develop new technologies to harness wave energy, including a novel method of accumulating the energy of random waves into a stationary surface flow and novel methods of manipulating floating objects by sending surface waves. This may help to stop the spread of surface pollutants or attract floating objects by sending waves towards them, and may help us to understand how rip currents are formed on the beach.Read moreRead less