Optimising permeable pavements with underlying reservoirs to enhance urban tree performance. This project will determine the optimal configuration of permeable pavements with underlying storage reservoirs and water delivery system to resolve the water security challenges that trees face in urban environments. This project will promote the healthy growth of urban trees and will lead to more liveable and healthier cities.
Special Research Initiatives - Grant ID: SR0354551
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
ARC Research Network for Renewable Energy. The proposed Research Network will integrate and coordinate the entire research field of renewable energy in Australia. This Network covers a diverse range of technologies, and includes all prominent researchers in the area of renewable energy in Australia. The Network is strengthened by the inclusion of key people from government agencies, industry, industry associations and international research organisations.
Australia is a leading player in the ....ARC Research Network for Renewable Energy. The proposed Research Network will integrate and coordinate the entire research field of renewable energy in Australia. This Network covers a diverse range of technologies, and includes all prominent researchers in the area of renewable energy in Australia. The Network is strengthened by the inclusion of key people from government agencies, industry, industry associations and international research organisations.
Australia is a leading player in the world's renewable energy industry. An effective structure for networking and for the exchange of people, information and research results will maintain and improve Australia's position in this rapidly growing industry.Read moreRead less
An integrated approach to iron salt use in urban water systems. The project aims to develop and demonstrate an integrated and innovative strategy, and the associated science and technologies, to achieve multiple beneficial uses of iron salts in an urban water system. The project intends to use iron chloride to replace the most commonly used alum as a coagulant in water treatment. The same iron is then further used for corrosion and odour control in sewers, phosphorus removal in wastewater treatm ....An integrated approach to iron salt use in urban water systems. The project aims to develop and demonstrate an integrated and innovative strategy, and the associated science and technologies, to achieve multiple beneficial uses of iron salts in an urban water system. The project intends to use iron chloride to replace the most commonly used alum as a coagulant in water treatment. The same iron is then further used for corrosion and odour control in sewers, phosphorus removal in wastewater treatment reactors and hydrogen sulfide removal from biogas in an anaerobic digester. The strategy is expected to substantially reduce the use of chemicals in the entire urban water system, delivering large economic and environmental benefits to urban water utilities.Read moreRead less
Intracellular manufacturing - high performance biomaterials from methane. The aim of this project is to produce high performance biodegradable polymers directly from methane. The key innovation is employing cutting-edge community genomic and transcriptomic approaches to characterise intracellular production lines in order to tailor polyhydroxybutyrate-co-valerate (PHBV) copolymer microstructures. This is a truly multidisciplinary project bringing together engineers, polymer scientists and molecu ....Intracellular manufacturing - high performance biomaterials from methane. The aim of this project is to produce high performance biodegradable polymers directly from methane. The key innovation is employing cutting-edge community genomic and transcriptomic approaches to characterise intracellular production lines in order to tailor polyhydroxybutyrate-co-valerate (PHBV) copolymer microstructures. This is a truly multidisciplinary project bringing together engineers, polymer scientists and molecular biologists. It is expected that a direct outcome of the project will be the first PHBV copolymer from methane. As such, the project aims to develop technology for the production of tough, flexible and affordable biopolymers and, at the same time, provide an opportunity to add value to methane.Read moreRead less
Energy positive targeted resource recovery from sludge. Energy positive targeted resource recovery from sludge. This project aims to develop an innovative, cost-effective and sustainable technology to completely dewater sludge. Sludge management is a notorious and costly issue for water utilities. The poor dewaterability of sludge results in a high moisture content. The only solid residue is inorganic ash, from which valuable resources such as coagulants, phosphate, and metals can be extracted. ....Energy positive targeted resource recovery from sludge. Energy positive targeted resource recovery from sludge. This project aims to develop an innovative, cost-effective and sustainable technology to completely dewater sludge. Sludge management is a notorious and costly issue for water utilities. The poor dewaterability of sludge results in a high moisture content. The only solid residue is inorganic ash, from which valuable resources such as coagulants, phosphate, and metals can be extracted. The research is expected to support the water utilities to achieve sustainable sludge management and potentially bring large economic, environmental and social benefits to water utilities.Read moreRead less
Methane and nitrous oxide emissions from sewers – understanding, modelling and mitigation. The research and industry partners will collaborate on this project to quantify, understand and mitigate emissions of methane and nitrous oxide in sewer networks. Both methane and nitrous oxide are potent greenhouse gases, and their emissions need to be accounted for and mitigated for the water industry to achieve greenhouse neutral water services.
Ammonia recovery from wastewaters using flow electrode-membrane systems. This project aims to develop an innovative approach to the recovery of ammonia from dilute wastewaters using coupled-flow electrode-membrane technologies that also enable energy recovery. The outcome of the project is expected to minimise damage to, and develop solutions for, restoration and remediation of, soil, fresh and potable water, urban catchments and marine systems, and significantly improve the environmental impact ....Ammonia recovery from wastewaters using flow electrode-membrane systems. This project aims to develop an innovative approach to the recovery of ammonia from dilute wastewaters using coupled-flow electrode-membrane technologies that also enable energy recovery. The outcome of the project is expected to minimise damage to, and develop solutions for, restoration and remediation of, soil, fresh and potable water, urban catchments and marine systems, and significantly improve the environmental impacts of ammonia.Read moreRead less
Water-energy-carbon linkages in households and cities: a new paradigm. This project quantifies water-related energy in households and cities. The project aims to find cost-effective solutions to the rapid increase in urban water energy use, and solutions for the co-management of water, energy and carbon.
Solar detoxification of wastewater: Bactericidal and photocatalytic activities of titania-based compounds in an externally-irradiated bubble column immobilized reactor. Light-assisted treatment is one of the most attractive methods for wastewater reclamation - a major issue for Australia with limited fresh water resources. However, commercial exploitation is hindered by inability to harness sunlight and poor photoreactor design. This proposal deals with the development of Co-titania photocatalys ....Solar detoxification of wastewater: Bactericidal and photocatalytic activities of titania-based compounds in an externally-irradiated bubble column immobilized reactor. Light-assisted treatment is one of the most attractive methods for wastewater reclamation - a major issue for Australia with limited fresh water resources. However, commercial exploitation is hindered by inability to harness sunlight and poor photoreactor design. This proposal deals with the development of Co-titania photocatalyst activatable by visible light to effect organic degradation and bacterial sterilization simultaneously at room temperature. The new reactor permits in-situ separation of the solid catalyst from treated liquid thus ensuring continuous production of recyclable water. The huge economic returns of solar-operated mobile or stationary wastewater unit from local and international markets are obvious.Read moreRead less
Preserving vegetation health and biodiversity of natural, urban reserves. The aim of this project is to quantify the links between water resources, vegetation health and biodiversity in small native and remnant vegetation reserves embedded in urban environments. The project will examine four reserves within Greater Melbourne hosting native tree species (river red gum), identified as vulnerable or endangered, and experiencing different rainfall regimes as well as water management practices. The s ....Preserving vegetation health and biodiversity of natural, urban reserves. The aim of this project is to quantify the links between water resources, vegetation health and biodiversity in small native and remnant vegetation reserves embedded in urban environments. The project will examine four reserves within Greater Melbourne hosting native tree species (river red gum), identified as vulnerable or endangered, and experiencing different rainfall regimes as well as water management practices. The specific objectives are to quantify water requirements and carbon balances, and to test a set of measurement methods (in situ and remote sensing) to relate water use with tree growth and biodiversity in urban reserves. Based on these studies, the project aims to develop a model for water balance and vegetation growth to assist in the management of urban reserves and parks.Read moreRead less