Sort by
Refine Your Search
-
water electrolysis powered with renewables-generated electricity is a highly promising way for large scale green hydrogen production, in particular for Australia. The state-of-the-art electrolysis cells
-
continents in the world and the demand for water resources in many of the most arid regions by industry and communities continues to increase as a result of population growth and expansion and development
-
will explore how crystallisation processes change when undertaken in unusual conditions such as in solvents that are not water, at non-miscible liquid interfaces and when an electrochemical potential is
-
has reached over 8,000 tonnes and there is a need to develop ocean and land-based seaweed culture of native species for domestic use and export markets. Despite the proven benefits of seaweed farming
-
Professors Zongping Shao and Moses Tade and Dr Xiaomin Xu on “Efficient and selective water electrolysis for clean energy and environment”. The PhD study will build on some of our recent work to develop
-
impacts of new roads and related infrastructure development in East Africa and the Indian Ocean Rim. In particular, it seeks to provide new knowledge on how infrastructure projects are altering East African
-
industry challenges. They will likely focus on areas such as optimum sowing date, crop water use, root architecture and potential carbon sequestration, crop ecophysiology, and pest and disease. The project
-
willing to collaborate with academics and practitioners working on heat wave attribution and action plans, in Australia and the Indian Ocean Rim Region, with an overarching drive to contribute to climate
-
instability under hydrocarbons, H2, CO2 and H2O, which is critical for their application in H-SOFCs. It has also been found that there must be an optimum Zr concentration for BaCeO3, in order to achieve high