Tailoring smart film for energy efficient protected cropping. Cooling cost represents a major running cost for greenhouse, preventing the wide adoption of highly beneficial protected cropping technology. This project aims at solving this critical issue by developing a world-first tailored smart film that can simultaneously reject solar heat, cool down the greenhouse and maximise the yields of crops. This is made possible by advanced spectral engineering and light management with frontier nanostr ....Tailoring smart film for energy efficient protected cropping. Cooling cost represents a major running cost for greenhouse, preventing the wide adoption of highly beneficial protected cropping technology. This project aims at solving this critical issue by developing a world-first tailored smart film that can simultaneously reject solar heat, cool down the greenhouse and maximise the yields of crops. This is made possible by advanced spectral engineering and light management with frontier nanostructures combined with a scalable and low cost manufacturing process. Deliverables of the project include game-changing energy efficient solutions for protected cropping and marketable smart films readily integratable with existing greenhouse for dramatic energy saving and immediate economic and social benefits.Read moreRead less
Advanced glazing systems for solar energy harvesting and radiation control. Development of advanced energy-saving glass and glazings capable of generating electricity is expected to lead towards new products of significant commercial potential. The outcomes of this project undertaken by Edith Cowan University and Tropiglas will raise the energy efficiency of commercial buildings and vehicles to levels not possible with other technologies.