Theoretical and experimental study of elastic properties of porous media permeated by aligned fractures. The aim of the project is to develop a theoretical model for the elastic properties of fractured porous reservoir rocks, taking into account the wave-induced fluid flow between pores and fractures. This will be done by theoretical analysis based on the model of fractures as planes of discontinuity in porous rock, and on the theory of wave propagation in anisotropic porous media. The theoretic ....Theoretical and experimental study of elastic properties of porous media permeated by aligned fractures. The aim of the project is to develop a theoretical model for the elastic properties of fractured porous reservoir rocks, taking into account the wave-induced fluid flow between pores and fractures. This will be done by theoretical analysis based on the model of fractures as planes of discontinuity in porous rock, and on the theory of wave propagation in anisotropic porous media. The theoretical model will be verified using numerical simulations and ultrasonic measurements made on synthetic porous and fractured samples. The results are expected to benefit seismic exploration and the production of oil and gas in fractured reservoirs.Read moreRead less
Auto-oscillation of human vocal folds: Key experiments using acoustic loads. This project aims to explain the basic physics of the voice using new, non-invasive, acoustic techniques. The physics of the vocal folds’ aeromechanical oscillation are not understood because this precious tissue is unavailable for direct experiments. This project shall determine how the flow and pressure at the larynx behave under acoustical loads and develop a data set that selects which models can explain vocal fold ....Auto-oscillation of human vocal folds: Key experiments using acoustic loads. This project aims to explain the basic physics of the voice using new, non-invasive, acoustic techniques. The physics of the vocal folds’ aeromechanical oscillation are not understood because this precious tissue is unavailable for direct experiments. This project shall determine how the flow and pressure at the larynx behave under acoustical loads and develop a data set that selects which models can explain vocal fold motion under different conditions and determine the parameters in those models. This project could benefit the huge industries that treat, record, compress, transmit, analyse and synthesise the voice.Read moreRead less
Acoustics of the Didjeridu. We shall undertake a comprehensive experimental and theoretical study of the acoustics of the didjeridu-lips-vocal tract system. There is very little published technical literature on the dynamic acoustics of this important and uniquely Australian instrument, whose operation is surprisingly complex. A combination of stroboscopic measurements of lip motion, acoustic and vocal tract impedance measurements, MRI imaging of the vocal tract and computer modeling will be use ....Acoustics of the Didjeridu. We shall undertake a comprehensive experimental and theoretical study of the acoustics of the didjeridu-lips-vocal tract system. There is very little published technical literature on the dynamic acoustics of this important and uniquely Australian instrument, whose operation is surprisingly complex. A combination of stroboscopic measurements of lip motion, acoustic and vocal tract impedance measurements, MRI imaging of the vocal tract and computer modeling will be used to synthesize all components of the acoustic system into one quantitative model. The expected outcome will be an understanding of this instrument of unparalleled detail.Read moreRead less
The voice: glottal flows, vocal tract resonances and their interaction. Speech is fundamental to human culture and huge industries exist that analyse, compress, synthesise, transmit and distribute it. Nevertheless, several practical difficulties mean that some key variables and how they interact are only imprecisely known. This project uses an innovative approach for deriving the glottal flow and a new technique for generating precise acoustical flows in model systems to refine the algorithms cu ....The voice: glottal flows, vocal tract resonances and their interaction. Speech is fundamental to human culture and huge industries exist that analyse, compress, synthesise, transmit and distribute it. Nevertheless, several practical difficulties mean that some key variables and how they interact are only imprecisely known. This project uses an innovative approach for deriving the glottal flow and a new technique for generating precise acoustical flows in model systems to refine the algorithms currently used to relate speech sound to the acoustic flow in the larynx. The project aims to provide the first reliable measurements of the bandwidths of resonances and the acoustical losses in vocal tracts. The results will have practical industrial and, perhaps, clinical applications.Read moreRead less
WAVE TRAPPING BARRIERS. Traditional noise barriers have poor performance when installed as parallel barriers in front of noise sources with large reflection surfaces. This is because that the reflected noise from the far side barrier or from the source surfaces contributes significantly to the noise level at the receiver location. This project involves the investigation of a novel barrier, the wave trapping barrier (WTB), which is capable of retaining the noise between the source and the barrier ....WAVE TRAPPING BARRIERS. Traditional noise barriers have poor performance when installed as parallel barriers in front of noise sources with large reflection surfaces. This is because that the reflected noise from the far side barrier or from the source surfaces contributes significantly to the noise level at the receiver location. This project involves the investigation of a novel barrier, the wave trapping barrier (WTB), which is capable of retaining the noise between the source and the barrier and to provide maximum sound absorption at the frequencies of concern, and thus to minimize the contribution due to the reflection. The aim is to develop a theoretical and experimental model for the physical understanding and optimal design of the WTB. Outcomes include a new generation of noise barriers that are potentially light-weighted, fiberless and with higher insertion loss.Read moreRead less
Numerical simulation of seismic waves in the regional and global earth with 3D Gaussian quadrature grids. The ability to realistically model the propagation of seismic waves through the global 3D earth, taking account of all internal and surface complexity, is extremely important for predicting the response to earthquakes and imaging the interior structure. This will lead to fundamental new knowledge on Earth constitution and heterogeneity, and will have spin-off benefits in others areas such as ....Numerical simulation of seismic waves in the regional and global earth with 3D Gaussian quadrature grids. The ability to realistically model the propagation of seismic waves through the global 3D earth, taking account of all internal and surface complexity, is extremely important for predicting the response to earthquakes and imaging the interior structure. This will lead to fundamental new knowledge on Earth constitution and heterogeneity, and will have spin-off benefits in others areas such as exploring for oil and minerals, and better understanding of seismic hazard. The numerical modelling and seismic data analysis will be done on a supercomputer, thus providing important training for research students. Read moreRead less
Seismic response of partially saturated petroleum reservoir zones: towards quantitative recovery monitoring. In most Australian reservoirs less than 50% of the original oil in place is recovered. A major factor that contributes to low recovery rates is bypassed oil/gas. Even a small, 1% improvement in recovery is of substantial economic significance. The proposed project aims to develop quantitative models for reservoir monitoring of zones with bypassed hydrocarbons using time-lapse (4D) seismic ....Seismic response of partially saturated petroleum reservoir zones: towards quantitative recovery monitoring. In most Australian reservoirs less than 50% of the original oil in place is recovered. A major factor that contributes to low recovery rates is bypassed oil/gas. Even a small, 1% improvement in recovery is of substantial economic significance. The proposed project aims to develop quantitative models for reservoir monitoring of zones with bypassed hydrocarbons using time-lapse (4D) seismic measurements, and thus to improve the hydrocarbon recovery factors. Developing these models will be a cutting edge research achievement, which will make a significant contribution to the knowledge base of the discipline and advance the international reputation of Australian science.Read moreRead less
Seismic attenuation and dispersion in reservoir rocks: broad-band experiments versus theoretical modelling. We propose to develop theoretical models of seismic attenuation and dispersion in hydrocarbon reservoirs, and a new method for experimental testing of these models. These models will provide new information to substantially improve characterisation of hydrocarbon reservoirs from geophysical data. The results will help optimise exploration and improve oil and gas recovery through developmen ....Seismic attenuation and dispersion in reservoir rocks: broad-band experiments versus theoretical modelling. We propose to develop theoretical models of seismic attenuation and dispersion in hydrocarbon reservoirs, and a new method for experimental testing of these models. These models will provide new information to substantially improve characterisation of hydrocarbon reservoirs from geophysical data. The results will help optimise exploration and improve oil and gas recovery through development of new technologies for quantitative reservoir characterisation in Australian basins. This research will enhance Australian competitiveness in basic and applied geophysical research, and will benefit the Australian geophysical industry as a provider of advanced geophysical technologies for oil exploration and production.Read moreRead less
Measurement of the spatial distribution of temperature and velocity in lakes using Acoustic Tomography. This project will investigate the use of acoustic tomography in lakes to continuously measure the lake-wide distribution of temperature and velocity. The challenges with lake acoustic tomography are the accuracy required in the travel time measurements over shorter distances, acoustic losses due to reflections and ensuring enough rays travel through the thermocline, the region of greatest inte ....Measurement of the spatial distribution of temperature and velocity in lakes using Acoustic Tomography. This project will investigate the use of acoustic tomography in lakes to continuously measure the lake-wide distribution of temperature and velocity. The challenges with lake acoustic tomography are the accuracy required in the travel time measurements over shorter distances, acoustic losses due to reflections and ensuring enough rays travel through the thermocline, the region of greatest interest in lakes. A pilot experiment in a deep lake will investigate the quality of travel time measurements computed from rays travelling through the thermocline of a strongly stratified lake. This has wide applications for the water quality management of lakes and reservoirs.Read moreRead less
Acoustic single cell traps: Understanding the woods by examining the trees. This project aims to define the underlying physics behind the manipulation of individual cells in a microfluidic chip using acoustic forces. The technology investigated would offer biomedical researchers a unique capability: that of tracking individual cell responses. It is known for example that drug resistance and latency emerge from small sub-populations of cells, so crucial information is lost when cells are studied ....Acoustic single cell traps: Understanding the woods by examining the trees. This project aims to define the underlying physics behind the manipulation of individual cells in a microfluidic chip using acoustic forces. The technology investigated would offer biomedical researchers a unique capability: that of tracking individual cell responses. It is known for example that drug resistance and latency emerge from small sub-populations of cells, so crucial information is lost when cells are studied at a population level. To trap single cells, the acoustic wavelength excited must be reduced to the order of a cell diameter. By enabling the analysis of different responses due to subtle cell difference, information pertinent to infection pathways and drug response could be gathered.Read moreRead less