Infrastructure Engineering - Research Publications
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ItemThe carbon footprint of treating patients with septic shock in the intensive care unit(College of Intensive Care Medicine of Australia and New Zealand, 2018-12-01)OBJECTIVE: To use life cycle assessment to determine the environmental footprint of the care of patients with septic shock in the intensive care unit (ICU). DESIGN, SETTING AND PARTICIPANTS: Prospective, observational life cycle assessment examining the use of energy for heating, ventilation and air conditioning; lighting; machines; and all consumables and waste associated with treating ten patients with septic shock in the ICU at BarnesJewish Hospital, St. Louis, MO, United States (US-ICU) and ten patients at Footscray Hospital, Melbourne, Vic, Australia (Aus-ICU). MAIN OUTCOME MEASURES: Environmental footprint, particularly greenhouse gas emissions. RESULTS: Energy use per patient averaged 272 kWh/day for the US-ICU and 143 kWh/day for the Aus-ICU. The average daily amount of single-use materials per patient was 3.4 kg (range, 1.0-6.3 kg) for the US-ICU and 3.4 kg (range, 1.2-8.7 kg) for the Aus-ICU. The average daily particularly greenhouse gas emissions arising from treating patients in the US-ICU was 178 kg carbon dioxide equivalent (CO2-e) emissions (range, 165-228 kg CO2-e), while for the Aus-ICU the carbon footprint was 88 kg CO2-e (range, 77-107 kg CO2-e). Energy accounted for 155 kg CO2-e in the US-ICU (87%) and 67 kg CO2-e in the Aus-ICU (76%). The daily treatment of one patient with septic shock in the US-ICU was equivalent to the total daily carbon footprint of 3.5 Americans' CO2-e emissions, and for the Aus-ICU, it was equivalent to the emissions of 1.5 Australians. CONCLUSION: The carbon footprints of the ICUs were dominated by the energy use for heating, ventilation and air conditioning; consumables were relatively less important, with limited effect of intensity of patient care. There is large opportunity for reducing the ICUs' carbon footprint by improving the energy efficiency of buildings and increasing the use of renewable energy sources.
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ItemOpening the door on refrigerator energy consumption: quantifying the key drivers in the home(SPRINGER, 2018-08)There is little concrete understanding of the energy consumption of refrigerating appliances during normal use or the main influences on their energy consumption. To date, no widely accepted method to disaggregate measured energy consumption measured in the home into its key components has been demonstrated. This paper examines the main external factors that impact on the energy consumption of existing refrigerating appliances in the home and how they respond to changing conditions, namely: room air temperature, defrosting behaviour and user interactions. Analysis of field data from 235 homes in Australia demonstrates that room air temperature is by far the largest factor accounting for typically around 75% of total energy consumption. Where present, energy used for defrosting is relatively small at around 10%, but this does vary by household and the type of defrost controller. User interactions typically account for 15% of total energy consumed by main household refrigerating appliances, but this varies from a few percent to as much as 45% in large households. The method set out in this paper provides a basis for more in depth analysis and a better understanding of energy consumption of household refrigerators in different regions.
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ItemNo Preview AvailableA pilot study on users’ IEQ perceptions in a residential aged care facility in Melbourne(RMIT, 2018-11-29)The aged population in Australia is expanding rapidly. To cater for the Australia’s ageing population, there is a significant increase in demand for aged care facilities over the coming decades. The indoor environmental quality (IEQ) affects users’ physical health and psychological wellbeing. However, systematic research on the relationship between users’ perceptions and IEQ of aged care facilities has yet to be developed. In this pilot study, a residential aged care facility in Melbourne was selected as a case study for investigating the differences between the measured IEQ data and the users’ perceived individual comfort. A questionnaire survey was conducted to collect the perceptions of users on IEQ. Environmental sensors which enable web-based data monitoring were deployed. The measured data were then analysed together with the questionnaire survey results for drawing a comparison with the users’ perceptions. It was found that the measurements by environmental sensors are realistic and the survey questionnaires are appropriate for the study. For the future surveys, the language barrier needs to be considered for non-English speakers.
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ItemOptimisation of a seasonal thermal energy storage system for space heating in cold climate zones(AAEE - Institute for Sustainable Technologies (AEE INTEC), 2018-10-04)The parameter optimised for a seasonal thermal energy storage (STES) system based on life cycle cost (LCC) is a unique investigation. Although STES with ground coupled heat pump (GCHP) and solar collector system have been verified and validated in other countries, the result cannot be used for particular cold climates because the performance of the system is highly climate sensitive. Therefore, this study intends to fill the knowledge gap by identifying optimum sets of system variables for four selected cities in cold climate zones.
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ItemEducation & training for zero energy and lean manufacturing & construction of housing in Australia(Curtin University, 2018-09-27)For zero energy and efficient production of mass customised housing, good outcomes are possible only when it is supportedby a good education curriculum and infrastructure. This paper reports on the status of education for zero energy and lean manufacturing and construction of houses in Australia by investigating offerings of Victorian schools, vocational training and highereducation sectors in these respects. The courses currently offered within Australian Qualifications Framework (AQF) were assessed. It was found that there are still gaps in the education infrastructure that do not provide fully for opportunities to educate the workforce in these areas. Although the main knowledge areas of zero energy are sufficiently covered by courses involving sustainability, renewable energy, energy efficiency in buildings and infrastructure construction, the teaching of lean concepts are not widespread in all these education sectors in Australia.
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ItemOccupational stress and workplace design(MDPI AG, 2018-09-23)The World Green Building Council (WGBC) advocates improvements in employee health, wellbeing, and productivity in buildings as people are about 90% of an organisation’s expense and well exceed building costs and energy costs. It was reported that earlier research on workplace design primarily focused on physical arrangement of employees’ immediate work area, and ambient environmental qualities of the work area. Building organisation, exterior amenities, and site-planning have been given less attention. Therefore, we examine more closely the health relevance of both proximal and remote aspects of workplace design. Occupational stress is a complex phenomenon that is dynamic and evolving over time. This investigation reviews the existing fundamental conceptual models of occupational stress, workplace design, and connection to nature. It aims to develop an improved model relevant to work place design and occupational stress linked with connection to nature. The proposed improved model is presented with an appropriate causal loop diagram to assist in visualizing how different variables in a system are interrelated. The developed model highlights how connection to nature in workspaces can function as a work resource with a dual effect of improving physical wellbeing and psychological wellbeing.
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ItemComparison of multi-objective optimisation tools for building performance simulation with TRNSYS 18(IBPSA-England, 2018-09-11)Recent progress in computer science has led to applications of simulation-based optimisation methods for building design. This application-focused paper compares two generic optimisation tools: Multi-Objective Building Performance Optimisation (MOBO) and Design Analysis Kit for Optimisation and Terascale Applications (DAKOTA). The workflow and coupling of each tool with TRNSYS 18 software are presented. Results show that computing times were comparable, and both tools display similar optimal solutions. MOBO, specifically developed for building performance optimisation, is a user-friendly software, whereas DAKOTA requires a steep learning curve for non-programmers. Conversely, DAKOTA provides flexibility in interfacing the simulation software and defining the optimisation settings.
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ItemOptimisation of a hybrid geothermal-solar-gas system: A case study for a typical poultry shed in New South Wales, Australia(IBPSA, 2018-09-11)Poultry sheds are used to raise poultries (chickens, turkeys and ducks), and have a unique heating and cooling demand pattern. A significant amount of energy is consumed for the heating and cooling of poultry sheds to maintain an indoor air temperature suitable for the growth and comfort of the poultries according to their age. This energy consumption results in a considerably high greenhouse gas (GHG) emissions and energy expenditure for the poultry shed operation. Previous studies have shown that a large amount of operational and lifecycle cost of heating can be reduced with the adoption of hybrid geothermal-solar-gas systems. In addition to the costs, GHG emissions should also be considered when heating equipment is selected. This paper presents an environmental analysis and optimisation for the sizing of components of a hybrid geothermal-solar-gas system for a typical poultry shed located in Peats Ridge, NSW, Australia. The results reveal that up to 100% of the operational emissions and up to 95% of the lifecycle GHG emissions can be reduced if the current gas heating system is replaced by the hybrid geothermal-solar-gas system. By also considering the lifecycle cost, the Pareto front solutions for this hybrid geothermal-solar-gas heating system has been found.
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ItemApplications of analytical hierarchy process (AHP) and analytical network process (ANP) for industrial site selections in Isfahan, Iran(Springer, 2018-07-13)Industrial sites are key factors in urban and regional land use planning. Therefore, determining the location of industrial areas is a critical and complex process for development and success. Industrial site selection aims in identifying the most suitable sites for industry creation, considering a set of influential criteria. Therefore, site selection generally and industrial site selection specifically can be categorised as a multi-criteria decision-making (MCDM) problem that requires detailed evaluation of various dimensions. This study developed a set of clusters containing 10 selection criteria for industrial site selection in Isfahan metropolitan area, Iran. The relationships between the criteria and clusters were modelled and analysed using analytical hierarchy process (AHP) and analytical network process (ANP). AHP and ANP agree in finding distance to water bodies and distance to other industries as the most and least important selection criteria. Four patches have been identified as suitable alternatives for industrial construction. While AHP found Borkhar Patch 1 as the most appropriate alternative, ANP demonstrated the superiority of Ardestan Patch over others. Conducting a sensitivity analysis for the models confirmed both models robustness in industrial site selection decisions.
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ItemDesign lessons from three Australian dementia support facilities(MDPI AG, 2018-05-24)There is a significant increase in the number of people with dementia, and the demand for residential support facilities is expected to increase. Providing an appropriate living environment for residents with dementia, which can cater for their specific needs is crucial. Residential aged care design can impact the quality of life and wellbeing of the residents. In this investigation, three recently constructed dementia support facilities in Victoria, Australia are selected for evaluation. Through fieldwork observation, design evaluation and space syntax analysis, the aim of this investigation is to consider the design of these three facilities in the context of current evidence on how the built environment can best accommodate residents with dementia.