Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100141
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Testing facilities for clean energy transformation technologies. As the world approaches peak oil production, the use of gasification to convert solid fuels to hydrogen and liquid fuels provides a low carbon footprint approach to the cleaner transformation of energy. This testing facility for clean energy transformation technologies will enhance the competitiveness of Australian science and engineering, contributing to the development of new technologies.
Fundamental research for advanced gasification technologies for low-rank coal and biomass in the carbon-constrained world. This project aims to acquire fundamental knowledge in order to develop advanced gasification technologies with high efficiencies and the capability to couple with carbon storage facilities in the carbon-constrained future. These technologies will contribute to the reduction of Australia's CO2 emissions using its cheap low-rank coal and biomass.
Discovery Early Career Researcher Award - Grant ID: DE130101215
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
A novel pyrolysis process for high-quality bio-oil production from biomass. The project outcome will provide fundamental knowledge essential to the development of a novel pyrolysis process for high-quality bio-oil production with biochar, a value-added by-product. It will largely accelerate the commercialisation of the biomass pyrolysis process to reduce greenhouse gas emissions and fossil fuel use in the energy sector.
Advanced biomass gasification process for distributed power generation with significant negative carbon emission in rural and regional Australia. The outcome of this project is fundamental knowledge essential to the development of advanced biomass gasification processes for distributed power generation with drastic reduction in carbon emissions and the recycling of inorganic nutrients to the land. It will contribute significantly to the future sustainability of rural and regional Australia.
Oxy-cofiring of bio-slurry and coal for carbon-negative power generation. This project aims to study co-firing characteristics of bio-slurry fuels and coal under oxy-pulverised-fuel (oxy-PF) conditions. Oxy-PF stationary systems can capture the renewable carbon embedded in bio-slurry fuel from biomass pyrolysis for sequestration, leading to carbon-negative power generation. The expected outcomes are critical knowledge and data regarding the underlying thermochemical reactions responsible for the ....Oxy-cofiring of bio-slurry and coal for carbon-negative power generation. This project aims to study co-firing characteristics of bio-slurry fuels and coal under oxy-pulverised-fuel (oxy-PF) conditions. Oxy-PF stationary systems can capture the renewable carbon embedded in bio-slurry fuel from biomass pyrolysis for sequestration, leading to carbon-negative power generation. The expected outcomes are critical knowledge and data regarding the underlying thermochemical reactions responsible for the co-pyrolysis, volatiles/char co-firing and ash formation from bio-slurry/coal co-firing under oxy-PF conditions. This is expected to enhance Australia's competitive advantage in clean power generation through high-impact scientific and technological innovations, and strengthen the related knowledge and skill base in the country.Read moreRead less
Bio-oil/char slurry from biomass for co-combustion in coal power plants: achieving power generation with a significant reduction of CO2 emission. This project will develop an advanced co-combustion technology of bio-oil/char slurry (i.e. bioslurry), prepared from biomass pyrolysis products, and coal in the existing coal-fired power plants for achieving significant CO2 reduction. It will enhance Australia's competitive advantage through high impact scientific and technological innovations.
Production, processing and combustion of an innovative slurry fuel for high efficiency distributed power generation. This project will advance the science underpinning the development of an innovative technology for energy production (with carbon capture) and use in remote regions. The outcomes of this research will help meet the great challenges of climate change and contribute to the development of an environmentally sustainable Australia.