Xiaoying Gu ([email protected])
The University of Melbourne, Melbourne School of Engineering, Infrastructure Engineering Department B204a/03, Level 2, Building 175, Parkville, VIC, 3010 PhD Thesis Understanding geothermal pavements yield using numerical modelling Supervisors: A/Prof. Guillermo Narsilio, Dr. Nikolas Makasis |
Education
Employment
Awards and Scholarships
Journal Papers
Conference Papers
This page, its contents and style, are the responsibility of the author and do not represent the views, policies or opinions of The University of Melbourne.
- PhD student (Infrastructure Engineering, Geotechnical Group), The University of Melbourne, Australia (2020 – present)
- MEng student (Civil Engineering), The University of Melbourne, Australia (2018 – present)
- Bachelor of Civil Engineering (honours) Monash University, Australia (2014 – 2017)
Employment
- Research Fellow – The University of Melbourne, Melbourne, VIC, Australia (2023 – present).
- Structural Engineering Intern – ClearCalcs Pty Ltd (2018).
Awards and Scholarships
- Melbourne Research Scholarships (MRS), The University of Melbourne (2020)
- Women in Engineering Bursaries Scholarship (2014)
Journal Papers
- MAKASIS, N., XIAOYING, G., KREITMAIR, M. J., NARSILIO, G. A. & CHOUDHARY, R. 2023. Geothermal pavements: a city-scale investigation for the city of Cardiff, UK, using a novel modelling framework. Renewable Energy
- Gu, X., Makasis, N., Motamedi, Y., Narsilio, G. A., Arulrajah, A., & Horpibulsuk, S. (2021). Geothermal pavements: field observations, numerical modelling and long-term performance. Géotechnique, 1-48.
- Rathnaweera, T. D., Ranjith, P. G., Gu, X., Perera, M. S. A., Kumari, W. G. P., Wanniarachchi, W. A. M., ... & Li, J. C. (2018). Experimental investigation of thermomechanical behaviour of clay-rich sandstone at extreme temperatures followed by cooling treatments. International Journal of Rock Mechanics and Mining Sciences, 107, 208-223.
Conference Papers
- GU, X., SARACHO, A. C., MAKASIS, N., KREITMAIR, M. J., HAIGH, S. & NARSILIO, G. Thermo-mechanical behaviour of microbial induced carbonate precipitation (MICP) sand for geothermal pavements. Symposium on Energy Geotechnics 2023, 2023a. 1-2.
- GU, X., SARACHO, A. C., MAKASIS, N., KREITMAIR, M. J., STUART, H. & NARSILIO, G. A novel sensor for in-situ thermo-mechanical testing and application to MICP-treated soils. In: XUNCHANG FEI, A. F., TUGCE BASER, ed. 9th ICEG, 2023 Greece.
- GU, X., MAKASIS, N., MOTAMEDI, Y., NARSILIO, G. A., ARULRAJAH, A. & HORPIBULSUK, S. 2022. Geothermal pavements: 3D numerical modelling for the long-term thermal performance. In: JAKSA, R. A. (ed.) 20th International Conference on Soil Mechanics and Geotechnical Engineering Sydney: Australian Geomechanics Society, Sydney, Australia
- Gu, X., Makasis, N., Motamedi, Y., Arulrajah, A., Horpibulsuk, S., & Narsilio, G. A. (2021). Geothermal Pavements: An Experimental and Numerical Study on Thermal Performance. Paper presented at the Civil Infrastructures Confronting Severe Weathers and Climate Changes Conference
This page, its contents and style, are the responsibility of the author and do not represent the views, policies or opinions of The University of Melbourne.