Discovery Early Career Researcher Award - Grant ID: DE170100694
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Building resilience in wastewater infrastructure with self-healing bioconcrete. This project aims to develop a microbial self-healing bio-concrete to extend the service life of wastewater collection and treatment facilities. Water utilities worldwide struggle with asset management, because global warming and extreme weather age and corrode concrete infrastructure. This project will use microbially-induced calcium carbonate precipitation by bacteria to treat wastewater. The bacteria, added to bio ....Building resilience in wastewater infrastructure with self-healing bioconcrete. This project aims to develop a microbial self-healing bio-concrete to extend the service life of wastewater collection and treatment facilities. Water utilities worldwide struggle with asset management, because global warming and extreme weather age and corrode concrete infrastructure. This project will use microbially-induced calcium carbonate precipitation by bacteria to treat wastewater. The bacteria, added to bio-concrete, can fill cracks or reseal corroded areas by using organic substrates from wastewater to generate concrete, thus maintaining structural strength and preventing further damage. This project is expected to enhance the resilience and sustainability of wastewater infrastructure in ever more demanding environments.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210101563
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Scrubbing pollutant gases from air via biochar-foam concrete technology. This project aims to address the pressing need to curb carbon dioxide and sulfur oxide level in the air through direct air capture technology using foamed concrete with engineered biochar, prepared by pyrolysis of food waste. The expected outcome of the project would be a durable biochar-foam concrete technology that enhances uptake of the mentioned pollutants, thus reducing their concentration in the ambient environment. I ....Scrubbing pollutant gases from air via biochar-foam concrete technology. This project aims to address the pressing need to curb carbon dioxide and sulfur oxide level in the air through direct air capture technology using foamed concrete with engineered biochar, prepared by pyrolysis of food waste. The expected outcome of the project would be a durable biochar-foam concrete technology that enhances uptake of the mentioned pollutants, thus reducing their concentration in the ambient environment. It links to Australian Government’s Science and Research priority areas of Resources and Environmental Change through utilization of waste-stream and offering an adaptive measure to impacts of climate change. Deploying this technology would offer durable lightweight construction and healthy environment for urban residents.Read moreRead less