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职业迁徙
个人简介
Phil is an Associate Professor in the Section of Geo-Engineering. He leads the department theme in Geothermal Science and Engineering. His research is into complex coupled processes in the geotechnical arena. He focuses on the impacts on soils / geomaterials of various processes including heat, moisture and contaminant movement, including practical applications such as geothermal energy, slope stability and radioactive waste disposal. He teaches on the undergraduate Soil Mechanics course (CTB2310) and the postgraduate Numerical Modelling in Geo-Engineering course (CIE4366). He is always looking for high quality PhD students or collaborators to work with him on current or new research projects.
Expertise
Coupled numerical modelling in geomaterials: thermo-hydro-chemical-gas-mechanical
Uncertainty reduction in calculating geotechnical reliability
Scientific computer programming, including parallel computer algorithms
Phil's research interests lie in the computational modelling of complex coupled mechanistic processes in geomaterials. He has worked on a number of practical applications, geo-energy, slope stability under varying environmental conditions, radioactive waste disposal and sustainability. For example his research work includes numerical simulation of the performance of a Prototype Nuclear Waste Repository which uses a multi-level barrier system, including materials with complex behaviour, such as bentonitic clays. He is interested in the uncertainties and heterogeneity exhibited by geomaterials and how this effects behaviour and the collection/analysis of data.
Current major research projects include:
Energy Piles in the Netherlands. € 850k, funded by NWO. 2016-2020.
New Approach to Reactor Safety ImprovementS (NARSIS). €400k, funded by EU. 2017-2021.
Reliability-Based Geomechanical Assessment Tools for Dykes and Embankments in Delta Areas (Reliable Dykes). € 1.1m, funded by STW. 2015-2018.
Expertise
Coupled numerical modelling in geomaterials: thermo-hydro-chemical-gas-mechanical
Uncertainty reduction in calculating geotechnical reliability
Scientific computer programming, including parallel computer algorithms
Phil's research interests lie in the computational modelling of complex coupled mechanistic processes in geomaterials. He has worked on a number of practical applications, geo-energy, slope stability under varying environmental conditions, radioactive waste disposal and sustainability. For example his research work includes numerical simulation of the performance of a Prototype Nuclear Waste Repository which uses a multi-level barrier system, including materials with complex behaviour, such as bentonitic clays. He is interested in the uncertainties and heterogeneity exhibited by geomaterials and how this effects behaviour and the collection/analysis of data.
Current major research projects include:
Energy Piles in the Netherlands. € 850k, funded by NWO. 2016-2020.
New Approach to Reactor Safety ImprovementS (NARSIS). €400k, funded by EU. 2017-2021.
Reliability-Based Geomechanical Assessment Tools for Dykes and Embankments in Delta Areas (Reliable Dykes). € 1.1m, funded by STW. 2015-2018.
研究兴趣
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GEORISK-ASSESSMENT AND MANAGEMENT OF RISK FOR ENGINEERED SYSTEMS AND GEOHAZARDSno. 1 (2024): 121-137
Symposium on Energy Geotechnics 2023 (2023)
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Renewable and Sustainable Energy Reviews (2023): 113623-113623
Symposium on Energy Geotechnics 2023pp.1-2, (2023)
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Wenbo Luo, Ouf Josselin,Philip J. Vardon,Anne-Catherine Dieudonné,Joaquín Liaudat,Kavan Khaledi, Reza Jalali,Florian Amann
Symposium on Energy Geotechnics 2023 (2023)
Symposium on Energy Geotechnics 2023 (2023)
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COMPUTERS AND GEOTECHNICS (2023): 105673-105673
ACTA GEOTECHNICAno. 7 (2023): 3585-3608
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