Demonstrating the feasibility of designing sustainable buildings using evolutionary systems. The design approach proposed in this research will result in two key areas of national benefit. First, the research will enable Australian built environment design professions to become more competitive in both domestic and international markets. There is a growing demand for environmentally-friendly buildings and the proposed design approach will enable Australian firms to be at the cutting edge of sust ....Demonstrating the feasibility of designing sustainable buildings using evolutionary systems. The design approach proposed in this research will result in two key areas of national benefit. First, the research will enable Australian built environment design professions to become more competitive in both domestic and international markets. There is a growing demand for environmentally-friendly buildings and the proposed design approach will enable Australian firms to be at the cutting edge of sustainable design. Second, the research will enable the Australian built environment to become more sustainable. The proposed approach will enable buildings to be designed that perform well, that are cost effective and that minimise their environmental impact. Read moreRead less
Natural and Artificial Lighting Control Energy and Visual Optimisation for a Low Energy Building. Artificial lighting is highlighted as the most significant area of opportunity to reduce energy as well as greenhouse emission. The application of intergrated daylight design together with artificial lighting control is researched. Control strategies of switching and dimming the artificial daylighting in conjunction with set-point levels, user preferences and daylighting maximisation are measured. T ....Natural and Artificial Lighting Control Energy and Visual Optimisation for a Low Energy Building. Artificial lighting is highlighted as the most significant area of opportunity to reduce energy as well as greenhouse emission. The application of intergrated daylight design together with artificial lighting control is researched. Control strategies of switching and dimming the artificial daylighting in conjunction with set-point levels, user preferences and daylighting maximisation are measured. The goal is to find the most effective saving strategies whilst maintaining visual comfortRead moreRead less
The performance of environmentally sustainable design features in commercial buildings. Two office buildings are to be analysed in respect of environmental performance both technically and in terms of the building occupants. The buildings are similar in location, use, quality and materials. One building contains several environmentally sustainable design features and it is expected that improvements in environmental outcomes will be observed when compared with the other building. The results ....The performance of environmentally sustainable design features in commercial buildings. Two office buildings are to be analysed in respect of environmental performance both technically and in terms of the building occupants. The buildings are similar in location, use, quality and materials. One building contains several environmentally sustainable design features and it is expected that improvements in environmental outcomes will be observed when compared with the other building. The results will provide a useful benchmark and a guide to the potential of environmentally sustainable property development.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0214172
Funder
Australian Research Council
Funding Amount
$320,000.00
Summary
Measuring highly resolved flow and sound in Australia's largest wind tunnel. Monash and RMIT Universities have developed an aero-acoustic facility of international standing to study flows around vehicles, buildings and structures. This is based around the largest wind tunnel in the Southern Hemisphere, which provides a National facility crucial to the development of a competitive automotive industry. To achieve the next stage of research development, velocities and acoustic fields need to be mea ....Measuring highly resolved flow and sound in Australia's largest wind tunnel. Monash and RMIT Universities have developed an aero-acoustic facility of international standing to study flows around vehicles, buildings and structures. This is based around the largest wind tunnel in the Southern Hemisphere, which provides a National facility crucial to the development of a competitive automotive industry. To achieve the next stage of research development, velocities and acoustic fields need to be measured with increased accuracy and spatial resolution than currently available. Given the physical scale of the facility, it is proposed to achieve this with an automated measurement system, which will also be integral to future research programs.Read moreRead less
Modelling greenhouse gas emissions associated with commercial building construction. A reliable model of greenhouse gas emissions for commercial building construction is required. Construction product manufacturing emissions are well known, but those associated with the construction process (representing up to 25% of the energy embodied in construction products) have not been fully elucidated. Commercial building construction requires more energy per square metre than residential building constr ....Modelling greenhouse gas emissions associated with commercial building construction. A reliable model of greenhouse gas emissions for commercial building construction is required. Construction product manufacturing emissions are well known, but those associated with the construction process (representing up to 25% of the energy embodied in construction products) have not been fully elucidated. Commercial building construction requires more energy per square metre than residential building construction, due mainly to lifting of heavy items. The results will be used to develop cost effective strategies for optimising greenhouse gas emissions associated with the total emissions from commercial building construction and operation. This will improve the environmental performance of the Australian construction industry.Read moreRead less
Impact and Effectiveness of Personal Ventilation in Open Plan Offices: a study of the Task Air system. Centralised air-conditioning systems are the standard for commercial office buildings in Australia. These systems are energy intensive, typically accounting for around 50% of building energy use. However, lack of occupant control over set temperatures or air movement tends to reduce thermal comfort, which can adversely affect worker productivity. The benefit of this project is that it will qu ....Impact and Effectiveness of Personal Ventilation in Open Plan Offices: a study of the Task Air system. Centralised air-conditioning systems are the standard for commercial office buildings in Australia. These systems are energy intensive, typically accounting for around 50% of building energy use. However, lack of occupant control over set temperatures or air movement tends to reduce thermal comfort, which can adversely affect worker productivity. The benefit of this project is that it will quantify the improvements to occupant comfort and energy savings possible with a PV system. This study will enable PV systems to be evaluated as an alternative to traditional air-conditioning, thereby demonstrating their effectiveness as a means of improving the sustainability rating of commercial office buildings in Australia.Read moreRead less
Open-plan Office Concepts Determine Effective Facilities Space Management. Open-plan layout is the most predominant work-setting and office designs are changing substantially towards this style. This research addresses the question, "How do open-plan attributes affect effective facilities space management." While this layout is increasingly adopted, no research has definitively answered this question or evaluated open-plan design for its usefulness. This research therefore aims to respond to thi ....Open-plan Office Concepts Determine Effective Facilities Space Management. Open-plan layout is the most predominant work-setting and office designs are changing substantially towards this style. This research addresses the question, "How do open-plan attributes affect effective facilities space management." While this layout is increasingly adopted, no research has definitively answered this question or evaluated open-plan design for its usefulness. This research therefore aims to respond to this question and establish reliable criteria for effective management and re-engineering of offices with open-plans. This research is novel and timely since it endeavours to develop new models and objective criteria to better exploit this concept for greater office performance and productivity.Read moreRead less
Behaviour of anchors in post-tensioned high-strength concrete slabs. Recently High-strength concrete(HSC) was introduced to minimise the time required for stressing the tendons in post-tensioned construction(PC), which is the preferred construction method for long span slabs in Australia and overseas. Although HSC is an obvious choice for this application, many failures have been observed in the live and dead end anchors of PC slabs and there is in fact very little understanding of relationships ....Behaviour of anchors in post-tensioned high-strength concrete slabs. Recently High-strength concrete(HSC) was introduced to minimise the time required for stressing the tendons in post-tensioned construction(PC), which is the preferred construction method for long span slabs in Australia and overseas. Although HSC is an obvious choice for this application, many failures have been observed in the live and dead end anchors of PC slabs and there is in fact very little understanding of relationships between specified concrete properties and performance. Through a systematic experimental and theoretical study, the behaviour of anchor regions of these slabs, including the reasons for failure will be investigated.Read moreRead less
Seismic performance of concrete beam-slab-column systems constructed with a re-useable sheet metal formwork system. When designing for earthquake induced loading it is very important to know the ductility and any other inherent deficiencies in structural systems under lateral deflections. The main purpose of this application is to investigate the seismic performance of an efficient beam-slab-column system constructed with a re-useable sheet metal formwork system, Corcon, which is becoming popula ....Seismic performance of concrete beam-slab-column systems constructed with a re-useable sheet metal formwork system. When designing for earthquake induced loading it is very important to know the ductility and any other inherent deficiencies in structural systems under lateral deflections. The main purpose of this application is to investigate the seismic performance of an efficient beam-slab-column system constructed with a re-useable sheet metal formwork system, Corcon, which is becoming popular in Australia and overseas. The proposed research will ultimately lead to revised design guidelines for these systems, suitable for local and overseas practice where different levels of seismicity occur.
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Innovative concrete panels for resisting severe impulsive loading. Responding to the threat of terrorist attacks around the world, structural engineers are seeking new methods of assessment and prevention of damage to high-risk facilities. This project seeks to develop an innovative technology to enhance the performance of concrete panels subjected to severe impulsive loading through a comprehensive experimental and theoretical study. Different protective technologies using advanced materials in ....Innovative concrete panels for resisting severe impulsive loading. Responding to the threat of terrorist attacks around the world, structural engineers are seeking new methods of assessment and prevention of damage to high-risk facilities. This project seeks to develop an innovative technology to enhance the performance of concrete panels subjected to severe impulsive loading through a comprehensive experimental and theoretical study. Different protective technologies using advanced materials including steel fibres, reactive-powder concrete (RPC), fibre reinforced polymers (FRP) and the use of light-weight cellular concrete (CC) as a sacrificial layer will be studied. The outcomes of this study will be applicable to both new and existing structures.Read moreRead less