• Energy Research
• Australian Research Council (ARC) close
• OA Publications Mandate: No close
• 2011 close

The purpose of this research is to improve the design and performance of small wind turbines for energy generation. The expected outcomes are novel control strategies and mechanical designs that account for unsteady aerodynamics and its effects on structural loads and power quality. Recommendations to improve current design standards will be made.

To allow large scale implementation of photovoltaics at multi-terawatt level for a low carbon emission future, technologies are required which are high in efficiency, cheap to produce, use abundant and benign materials. This project is devoted to developing such thin film solar cells by low-cost methods, which are scalable to mass production.

The purpose of this project is to improve the efficiency of large-area, thin-film CdTe solar cells by using them in a tandem arrangement with thin-film Ge cells. An increase of 25 per cent in efficiency appears possible, which would greatly improve the prospects for cost-competitive photovoltaic power generation.

This measurement facility will underpin advances in the fundamental understanding of new semiconducting materials for high efficiency light-driven energy conversion systems. The outcomes of the research at the facility will lead to significant economic and environmental benefits for many industries, such as low cost solar cells and water purifications.

This project addresses a growing demand of modern day living: cost effective and efficient ventilation in building using a novel hybrid system of wind turbine ventilator and air circulation control technology providing significant savings in total building energy consumption and carbon emissions creating frontier technology industries and new jobs.

The project seeks to improve solar-hydrogen fuel production via water splitting by addressing a fundamental scientific roadblock. By engineered nanostructures with controlled charge transfer abilities, the most desirable route to water splitting will be promoted; granting Australia an opportunity to develop a solar-based renewable fuel.

This project will help reduce the 38 per cent of all Australian waste that is produced by the construction industry by addressing the role of the building procurement team in reducing resource usage and eliminating waste. The outcomes of this research will address National Research Priority 1, An Environmentally Sustainable Australia.