Foundation remediation using resin injection. The aim of this research project is to explore the application of injected expanded polyurethane resins as a new option for the re-levelling and stabilisation of deflected foundations on reactive clay soils. It will identify the physical and behavioural characteristics of resin-injected reactive clay foundations, in the context of both shallow and deep injection, and will identify any limitations to the applicability of the approach. Based on detaile ....Foundation remediation using resin injection. The aim of this research project is to explore the application of injected expanded polyurethane resins as a new option for the re-levelling and stabilisation of deflected foundations on reactive clay soils. It will identify the physical and behavioural characteristics of resin-injected reactive clay foundations, in the context of both shallow and deep injection, and will identify any limitations to the applicability of the approach. Based on detailed laboratory and field testing, and advanced numerical modelling, the outcome will be the ability to confidently assess various foundation remediation strategies in reactive clay soils, and provide much needed design guidance to the geotechnical profession and building industry.Read moreRead less
Improving thermal performance of low-cost houses for better health of occupants and to reduce costs of temperature control. Recent projects in rural and remote Australian Indigenous communities show that internal house temperatures can vary from accepted temperature ranges that promote well-being, particularly in young children, by up to 20ºC in both summer and winter.
Low-cost housing with poor thermal performance often results in reliance on 'active', often costly-to-run, heating and cooli ....Improving thermal performance of low-cost houses for better health of occupants and to reduce costs of temperature control. Recent projects in rural and remote Australian Indigenous communities show that internal house temperatures can vary from accepted temperature ranges that promote well-being, particularly in young children, by up to 20ºC in both summer and winter.
Low-cost housing with poor thermal performance often results in reliance on 'active', often costly-to-run, heating and cooling appliances.
Measured internal temperatures, energy and water-use data from Indigenous houses will be analysed to demonstrate the link between low-cost house design and poor thermal performance. A methodology and prioritised guidelines for improving temperature control in existing and new low-cost housing will be formulated.
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The Ageing of Aquarius: Designing new housing solutions for Australia's baby-boomers. The economically most powerful demographic group in Australian society is the relatively wealthy baby-boomer cohort as it enters a period of unprecedented and extended retirement activity. This period will create unique housing demands and require new insights into the nature of dwelling provision and preferences for this group. The housing industry is historically hampered by an inability to innovate and prov ....The Ageing of Aquarius: Designing new housing solutions for Australia's baby-boomers. The economically most powerful demographic group in Australian society is the relatively wealthy baby-boomer cohort as it enters a period of unprecedented and extended retirement activity. This period will create unique housing demands and require new insights into the nature of dwelling provision and preferences for this group. The housing industry is historically hampered by an inability to innovate and provide these types of solutions. This research will establish design-based methodologies and practices that would enable industry to discern and provide for the future housing needs of this group, and contribute to the development of innovation in the industry generally.Read moreRead less
Optimisation of Building Structures Considering Wind Loading. Wind loading is a dominant factor that should be carefully considered and resourcefully exploited in the design of building structures. The ever-taller buildings proposed around the world have presented a major challenge and opportunity in the pursuit of new techniques and materials. The proposed research will improve the competitiveness and productivity of the Australian building design industry by establishing a cutting-edge compute ....Optimisation of Building Structures Considering Wind Loading. Wind loading is a dominant factor that should be carefully considered and resourcefully exploited in the design of building structures. The ever-taller buildings proposed around the world have presented a major challenge and opportunity in the pursuit of new techniques and materials. The proposed research will improve the competitiveness and productivity of the Australian building design industry by establishing a cutting-edge computer-automated design tool for creating innovative building systems that can resist wind loading effectively and efficiently. The developed technology will result in significant enhancement of the performance and safety of buildings, and substantial reduction of construction materials and costs.Read moreRead less
Residential Air Conditioning, Comfort and Demand Response in Australia. Rapid growth in residential air conditioning (AC) ownership will potentially undermine national energy efficiency and greenhouse reduction targets. Furthermore, residential AC is placing a strain on the national electricity system, especially during heat waves when electricity demand peaks. These AC-driven peak loads occur occasionally each summer, but increasing grid capacity to meet them represents a grossly inefficient in ....Residential Air Conditioning, Comfort and Demand Response in Australia. Rapid growth in residential air conditioning (AC) ownership will potentially undermine national energy efficiency and greenhouse reduction targets. Furthermore, residential AC is placing a strain on the national electricity system, especially during heat waves when electricity demand peaks. These AC-driven peak loads occur occasionally each summer, but increasing grid capacity to meet them represents a grossly inefficient infrastructure investment. This project will generate Australia's most comprehensive data set on exactly how, when, where, and why residential AC systems are being used. The outcomes will provide a solid platform on which national electricity demand management and AC greenhouse-gas mitigation strategies can be designed.Read moreRead less