Design Of Practical Passive Cooling Radiators Utilising Spectrally Selective Covers And Surfaces. Radiative cooling offers a means to cool buildings sustainably without complex and costly heat pumps or air conditioners. Units similar to solar panels can be designed with surfaces which radiate mostly into the 8 - 12 micron atmospheric window, which has a radiance much less than for other wavelengths. Commercial development has been limited by problems associated with the degradation, performance ....Design Of Practical Passive Cooling Radiators Utilising Spectrally Selective Covers And Surfaces. Radiative cooling offers a means to cool buildings sustainably without complex and costly heat pumps or air conditioners. Units similar to solar panels can be designed with surfaces which radiate mostly into the 8 - 12 micron atmospheric window, which has a radiance much less than for other wavelengths. Commercial development has been limited by problems associated with the degradation, performance or cost of radiator surfaces. This project seeks to improve both performance and durability with innovative use of alternative materials and sputtered coatings suitable for mass manufacture, and to test the outdoor performance of laboratory produced radiative plates.Read moreRead less
Design of high performance heat sink composites. Heat sink composites are advanced materials that have the very substantial but widely untapped potential to reduce Society's energy consumption by means of utilizing waste energy or through energy-efficient temperature control. This Project uses computational analysis and parallel experimentation to design optimum heat-sink composites for highly energy-efficient temperature control of chemical batteries or electronic components as well as the mean ....Design of high performance heat sink composites. Heat sink composites are advanced materials that have the very substantial but widely untapped potential to reduce Society's energy consumption by means of utilizing waste energy or through energy-efficient temperature control. This Project uses computational analysis and parallel experimentation to design optimum heat-sink composites for highly energy-efficient temperature control of chemical batteries or electronic components as well as the means for the efficient heating/cooling of buildings. The outcomes of the project will lay the scientific foundation for the industrial scale development of advanced heat sinks that will lower energy costs and decrease climate changing emissions. This represents a new market for Australian industry.Read moreRead less