Infrastructure Engineering - Research Publications
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ItemNo Preview AvailableA multi-layered energy resilience framework and metrics for energy master planning of communities: A university campus case study(Society of Risk Analysis, 2021-12-05)
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ItemNo Preview AvailableCorrosion protection of steel elements in façade systems – A review(Elsevier, 2020-11)Corrosion of steel elements in a façade system may cause failure that can adversely affect building performance. In this paper we review and synthesize the scientific literature in order to provide practical guidance for engineers, designers and material/product specifiers to avoid or minimize the corrosion of steel elements in façade systems as well as to identify the challenges for future research. The review covered different types of corrosion such as atmospheric, galvanic or bimetallic, embedded, and cut-edge corrosion and how different factors affect the corrosion rate of steel. Preventing or minimising the potential for steel corrosion in a building façade involves examination of the surrounding environment, a proper design of façade system, selecting a suitable steel grade, choosing an appropriate coating, and undertaking maintenance regularly. Further research has been identified, including the development of environmentally friendly and low cost nanocoatings, and establishing locally-validated corrosion rates of steel elements. The latter can form the basis for the development of hazard zone maps that consider industrial pollutants and other local environment factors.
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ItemCarbon footprint reduction through residential building stock retrofit: A metro melbourne suburb case study(MDPI AG, 2021-10-01)Since existing residential buildings are a significant global contributor to energy consumption and greenhouse gas (GHG) emissions, any serious effort to reduce the actual energy and carbon emissions of the building sector should explicitly address the carbon mitigation challenges and opportunities in the building stock. This research investigates environmentally and economically sustainable retrofit methods to reduce the carbon footprint of existing residential buildings in the City of Greater Dandenong as a case study in Metropolitan Melbourne, Australia. By categorizing energy use into various building age brackets and dwelling types that align with changes in energy regulations, we identified various retrofit prototypes to achieve a targeted 6.5-star and 8-star energy efficiency rating (out of a maximum 10-star rating system). The corresponding operational energy savings through different retrofit options are examined while also considering the quantity of materials required for each option, along with their embodied energy and GHG emissions, thus allowing a more comprehensive lifecycle carbon analysis and exploration of their financial and environmental payback times. Results show that when buildings are upgraded with a combination of insulation and double-glazed windows, the environmental benefits rise faster than the financial benefits over a dwelling’s lifecycle. The size or percentage of a particular dwelling type within the building stock and the remaining lifecycle period are found to be the most important factors influencing the payback periods. Retrofitting the older single detached dwellings shows the greatest potential for lifecycle energy and carbon savings in the case suburb. These findings provide households, industry and governments some guidance on how to contribute most effectively to reduce the carbon footprint of the residential building sector.
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ItemNo Preview AvailableCovid-19 Pandemic Geospatial Information and Community Resilience(CRC Press, 2021-06-08)This book, with worldwide contributions examining the COVID-19 pandemic, provides interdisciplinary analysis and multi-sector expertise on the use of geospatial information and location intelligence to support community resilience and the ...