Between social enterprise and social movement: responses to environmental change at the intersection of rights and regulation. This socio-legal project will illuminate the diverse ways in which formal law blocks or encourages the efforts of ordinary citizens to respond to the challenges of reducing our carbon footprint. It will significantly develop the foundations for designing effective governance structures to support ethically-motivated citizen initiatives.
Field survey of residential air conditioning and comfort in Australia. Air conditioning represents one of the fastest growing electricity end-uses in the Australian residential sector. This project will be the first large-scale Australian study into residential thermal comfort and air conditioning and will provide a solid basis for further greenhouse mitigation strategies and policies.
Living with Urban Heat: Becoming Climate-Ready in Social Housing . This project aims to address liveability in rapidly warming cities by focusing on the role that social practice plays in complementing technical and infrastructural cooling solutions. This project expects to generate new knowledge about equitable heat adaptive practices. It does so by working with culturally diverse social housing residents using an innovative blend of participatory action research and transition design. Expected ....Living with Urban Heat: Becoming Climate-Ready in Social Housing . This project aims to address liveability in rapidly warming cities by focusing on the role that social practice plays in complementing technical and infrastructural cooling solutions. This project expects to generate new knowledge about equitable heat adaptive practices. It does so by working with culturally diverse social housing residents using an innovative blend of participatory action research and transition design. Expected outcomes of this project include practical, low-cost cooling strategies that can be implemented now, along with increased social input into planning for the hotter urban future. This should provide significant benefits, such as enhanced civic capacity to generate society-wide climate readiness. Read moreRead less
Methane uptake of forest soils. This project will provide a detailed understanding of capacity of soils in Australia to sequester the greenhouse gas methane. It will identify the main factors and processes controlling methane uptake in soils and improve predictive models will allow us to predict methane uptake in the future.
A balancing act: Resolving coastal wetland water, carbon and solute fluxes. Coastal wetlands offer an impressive capacity to regulate the Earth’s climate by altering the way carbon dioxide is extracted from the atmosphere and stored while simultaneously influencing the water cycle, thus providing ecosystem services such as carbon storage, abating flood waters, improving water quality and protecting the coastline from sea level rise. This project aims to address the current gaps in understanding .... A balancing act: Resolving coastal wetland water, carbon and solute fluxes. Coastal wetlands offer an impressive capacity to regulate the Earth’s climate by altering the way carbon dioxide is extracted from the atmosphere and stored while simultaneously influencing the water cycle, thus providing ecosystem services such as carbon storage, abating flood waters, improving water quality and protecting the coastline from sea level rise. This project aims to address the current gaps in understanding the critical exchanges of water and greenhouse gases (GHGs) combining field methodologies and hydrological models, under different climatic conditions. The intended outcomes will benefit management of GHG emissions, coastal flooding and vulnerable groundwater dependent habitats.Read moreRead less
Rhizosphere mediation of soil greenhouse gas fluxes with climate change. Increasingly extreme heat waves, droughts and floods contribute major uncertainties in predicting natural land-based climate change mitigation. This project will quantify current and future greenhouse gas absorption in a managed grassland ecosystem, and the new knowledge will contribute to carbon emissions offsets in climate change accounting schemes. We will conduct this research using a manipulative field experiment, cont ....Rhizosphere mediation of soil greenhouse gas fluxes with climate change. Increasingly extreme heat waves, droughts and floods contribute major uncertainties in predicting natural land-based climate change mitigation. This project will quantify current and future greenhouse gas absorption in a managed grassland ecosystem, and the new knowledge will contribute to carbon emissions offsets in climate change accounting schemes. We will conduct this research using a manipulative field experiment, controlled laboratory incubations, microbial gene analysis and mechanistic modelling to provide new insights into future potential climate change mitigation by soils.Read moreRead less
Scalable daytime radiative cooling for buildings and the built environment . This project aims at the development of a scalable daytime radiative cooling technology suitable for large deployments in the built environment that will help mitigating the urban heat island effect, and reduce future cooling energy needs in buildings. The main outcomes of the project will consist of the development of radiative coolers that will be able to operate in the built environment under Australian climatic cond ....Scalable daytime radiative cooling for buildings and the built environment . This project aims at the development of a scalable daytime radiative cooling technology suitable for large deployments in the built environment that will help mitigating the urban heat island effect, and reduce future cooling energy needs in buildings. The main outcomes of the project will consist of the development of radiative coolers that will be able to operate in the built environment under Australian climatic conditions, and of clear guidelines for their large deployment. The technology is based on a passive cooling strategy requiring no energy for its operations. The outcomes of the project will also have a beneficial impact on the Australian building and construction industry.Read moreRead less
Elastocaloric cooling systems for buildings and the built environment. This project aims to develop elastocaloric cooling systems that will find application in buildings and the built environment. The main aims of the projects are to establish a new technology capable of enhancing the efficiency of traditional cooling systems used for building applications and of reducing the contribution of structural and architectural components to the urban heat island effect. This work will be supported by a ....Elastocaloric cooling systems for buildings and the built environment. This project aims to develop elastocaloric cooling systems that will find application in buildings and the built environment. The main aims of the projects are to establish a new technology capable of enhancing the efficiency of traditional cooling systems used for building applications and of reducing the contribution of structural and architectural components to the urban heat island effect. This work will be supported by a new theoretical platform that will incorporate the elastocaloric cooling behaviour into the structural, thermal and energy performance of the building components, as well as by prototype testing. The outcomes of the project will lead to new building cooling technologies, increasing efficiency of traditional cooling building systems.Read moreRead less
Fluorescent daytime radiative cooling for urban heat mitigation . This project aims to develop a fluorescent daytime radiative cooling technology suitable for the mitigation of urban overheating in the built environment and for the reduction of future cooling energy demands in buildings. The project expects to generate new knowledge in this area to enable the exploitation of fluorescent materials for urban heat mitigation and cooling of buildings. Expected project outcomes consist of the establi ....Fluorescent daytime radiative cooling for urban heat mitigation . This project aims to develop a fluorescent daytime radiative cooling technology suitable for the mitigation of urban overheating in the built environment and for the reduction of future cooling energy demands in buildings. The project expects to generate new knowledge in this area to enable the exploitation of fluorescent materials for urban heat mitigation and cooling of buildings. Expected project outcomes consist of the establishment of the new cooling technology for application on coloured surfaces, typically used in the urban built environment, and on white surfaces for boosting the cooling power of current daytime radiative coolers. This should lead to significant benefits for the Australian building and construction industry.
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Energy capture from polymer based synthetic foliage. Wind powered renewable energy technologies are rejected in urban or natural environments because of their noise and perceived danger to avian wildlife from conventional rotary wind turbines. The synthetic foliage will be used as a device for low energy applications which is expected to be more socially acceptable in urban settings. We anticipate that this will lead to increased adoption of renewable energy by the Australian public. Success of ....Energy capture from polymer based synthetic foliage. Wind powered renewable energy technologies are rejected in urban or natural environments because of their noise and perceived danger to avian wildlife from conventional rotary wind turbines. The synthetic foliage will be used as a device for low energy applications which is expected to be more socially acceptable in urban settings. We anticipate that this will lead to increased adoption of renewable energy by the Australian public. Success of the project will lead to long term benefits for Australia including reduction of greenhouse gas emissions and the creation of jobs in the sustainable energy sector.Read moreRead less