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Application of flow-round penetrometers for characterising soft sediments. Soft sediments present unique challenges in geotechnical engineering due to their sensitivity to disturbance during sampling. Strength measurement therefore relies on field tests, and novel penetrometers that force soil to flow around the probe have the potential for significantly improved accuracy compared with conventional cone penetrometers. The project aims to establish a definitive framework for interpreting result ....Application of flow-round penetrometers for characterising soft sediments. Soft sediments present unique challenges in geotechnical engineering due to their sensitivity to disturbance during sampling. Strength measurement therefore relies on field tests, and novel penetrometers that force soil to flow around the probe have the potential for significantly improved accuracy compared with conventional cone penetrometers. The project aims to establish a definitive framework for interpreting results of field tests using flow-round penetrometers, through careful comparison of laboratory and field strength measurements. Applications of the work range from characterising deepwater sediments for offshore developments, to monitoring the strength of pastes in the mining and materials handling industries.Read moreRead less
Physical modelling of on-bottom pipelines and offshore anchoring systems. The collaborative research programme will consist of physical modelling of suction caissons, piles and pipeline sections in order to advance the geotechnical design of deepwater facilities for offshore hydrocarbon production. The collaboration will underpin new technologies, such as steel catenary risers and suction caissons for deepwater anchoring, providing benchmark data for the validation of analysis tools. Benefits al ....Physical modelling of on-bottom pipelines and offshore anchoring systems. The collaborative research programme will consist of physical modelling of suction caissons, piles and pipeline sections in order to advance the geotechnical design of deepwater facilities for offshore hydrocarbon production. The collaboration will underpin new technologies, such as steel catenary risers and suction caissons for deepwater anchoring, providing benchmark data for the validation of analysis tools. Benefits also include the exchange of recent technical advances between geotechnical centrifuge facilities in Australia, France and the UK, all of whom are active in modelling offshore foundation systems, ensuring that Australian research remains at the forefront of world best-practice.Read moreRead less