Overview
Background
Dr Qi Shao is a Postdoctoral Research Fellow at the Julius Kruttschnitt Mineral Research Centre (JKMRC), where his primary research focus is on modelling mineral separation processes using Computational Fluid Dynamics (CFD) simulations. His recent work has applied CFD to a range of mineral separation equipment, including the Teeter Bed Separator, CrossFlow, HydroFloat, conventional mechanical flotation cells, and the Jameson Cell. By examining hydrodynamics and performance across varying operating conditions and equipment designs, his research aims to enhance separation efficiency, reduce energy consumption, and boost productivity.
Dr Shao earned his PhD in Environmental Engineering from The University of Queensland, where he developed numerical models using Cellular Automata to simulate hydrological processes in mining landforms. Following his PhD, he continued at UQ as a Postdoctoral Research Fellow, investigating fluid-particle interactions in hydraulic erosion of granular structures through coupled CFD and Discrete Element Method (DEM) simulations.
Prior to his current role, Dr Shao conducted research at the University of Melbourne, focusing on numerical simulations of solute transport and multiphase flows in heterogeneous porous media. His work addressed critical environmental and engineering challenges, including contaminant transport, geological CO₂ sequestration, and groundwater flow dynamics.
Dr Shao’s expertise spans a wide array of numerical methods, including Finite Element Method (FEM), Finite Volume Method (FVM), DEM, Cellular Automata, and Discrete Event Simulation, which he applies to solve complex problems across environmental and mineral engineering domains.
Availability
- Dr Qi Shao is:
- Available for supervision
Fields of research
Qualifications
- Bachelor of Environmental Science, Beijing Forestry University (北京林业大学)
- Masters (Research) of Environmental Science, Beijing Normal University (北京师范大学)
- Doctor of Philosophy of Environmental Engineering, The University of Queensland
Research interests
-
Computational Modelling of Mineral Separation Processes
I use Computational Fluid Dynamics (CFD) to simulate and optimise mineral separation equipment such as flotation cells, HydroFloat, and Teeter Bed Separators. My research focuses on understanding hydrodynamics and improving separation efficiency under varying operating conditions and equipment designs. This work supports the development of more energy-efficient and productive mineral processing technologies.
-
Numerical Simulation of Multiphase Flows in Porous Media
I develop and apply numerical models to study solute transport and multiphase flow in heterogeneous porous media. This work addresses challenges in groundwater contamination, CO₂ sequestration, and subsurface fluid dynamics, using methods such as Finite Volume and Finite Element.
-
Fluid - Particle Interaction and Hydraulic Erosion
My research explores fluid - particle interactions in granular structures using coupled CFD and Discrete Element Method (DEM) simulations. I investigate hydraulic erosion mechanisms, aiming to improve the stability and design of granular systems under fluid flow.
-
Surface Runoff and Erosion Modelling of Rehabilitated Mining Landforms
I develop numerical models to simulate surface runoff and erosion processes in post-mining landscapes, with a focus on rehabilitated landforms. Using Cellular Automata and other modelling techniques, my research aims to predict long-term hydrological behaviour and assess landform stability. This work supports sustainable mine closure strategies and improves environmental outcomes in mining rehabilitation.
Works
Search Professor Qi Shao’s works on UQ eSpace
2025
Other Outputs
Identifying an approach to predict mechanical wear of Jameson cell downcomers when processing abrasive slurries
Weatherley, Dion Kent, Shao, Qi, Verster, Lizette and Runge, Kym (2025). Identifying an approach to predict mechanical wear of Jameson cell downcomers when processing abrasive slurries. Brisbane, QLD, Australia: University of Queensland.
2024
Journal Article
Computing relative permeability and capillary pressure of heterogeneous rocks using realistic boundary conditions
Youssef, AbdAllah A., Shao, Qi and Matthäi, S. K. (2024). Computing relative permeability and capillary pressure of heterogeneous rocks using realistic boundary conditions. Transport in Porous Media, 151 (8), 1729-1754. doi: 10.1007/s11242-024-02092-x
2024
Journal Article
Description and assessment of a new high resolution erosion model for constructed landforms
Yavari, Shahla, McIntyre, Neil, Shao, Qi and Baumgartl, Thomas (2024). Description and assessment of a new high resolution erosion model for constructed landforms. Environmental Modelling and Software, 172 105928, 1-15. doi: 10.1016/j.envsoft.2023.105928
2023
Journal Article
The FluidFlower validation benchmark study for the storage of CO2
Flemisch, Bernd, Nordbotten, Jan M., Ferno, Martin, Juanes, Ruben, Both, Jakub W., Class, Holger, Delshad, Mojdeh, Doster, Florian, Ennis-King, Jonathan, Franc, Jacques, Geiger, Sebastian, Glaeser, Dennis, Green, Christopher, Gunning, James, Hajibeygi, Hadi, Jackson, Samuel J., Jammoul, Mohamad, Karra, Satish, Li, Jiawei, Matthaei, Stephan K., Miller, Terry, Shao, Qi, Spurin, Catherine, Stauffer, Philip, Tchelepi, Hamdi, Tian, Xiaoming, Viswanathan, Hari, Voskov, Denis, Wang, Yuhang ... Zhang, Ziliang (2023). The FluidFlower validation benchmark study for the storage of CO2. Transport in Porous Media, 151 (5), 865-912. doi: 10.1007/s11242-023-01977-7
2023
Conference Publication
Two-step upscaling of sub-seismic geo-heterogeneity with flow-rate-and direction dependent saturation functions
Youssef, AbdAllah A., Shao, Qi and Matthäi, Stephan K. (2023). Two-step upscaling of sub-seismic geo-heterogeneity with flow-rate-and direction dependent saturation functions. Society of Petroleum Engineers - SPE Reservoir Simulation Conference, RSC 2023, Galveston, TX United States, 28–30 March 2023. Richardson, TX United States: Society of Petroleum Engineers. doi: 10.2118/212215-ms
2022
Journal Article
Modelling CO2 plume spreading in highly heterogeneous rocks with anisotropic, rate-dependent saturation functions: a field-data based numeric simulation study of Otway
Shao, Qi, Boon, Maartje, Youssef, AbdAllah, Kurtev, Kuncho, Benson, Sally M. and Matthai, Stephan K. (2022). Modelling CO2 plume spreading in highly heterogeneous rocks with anisotropic, rate-dependent saturation functions: a field-data based numeric simulation study of Otway. International Journal of Greenhouse Gas Control, 119 103699, 1-24. doi: 10.1016/j.ijggc.2022.103699
2022
Journal Article
Anisotropic rate-dependent saturation functions for compositional simulation of sandstone composites
Boon, Maartje, Matthäi, Stephan K., Shao, Qi, Youssef, AbdAllah A., Mishra, Achyut and Benson, Sally M. (2022). Anisotropic rate-dependent saturation functions for compositional simulation of sandstone composites. Journal of Petroleum Science and Engineering, 209 109934, 1-16. doi: 10.1016/j.petrol.2021.109934
2022
Conference Publication
Simulating unsteady CO2 flow through brine-saturated cross-bedded sandstones: towards relative permeability curves for unstable displacement
Youssef, A., Tertois, A., Shao, Q. and Matthai, S. (2022). Simulating unsteady CO2 flow through brine-saturated cross-bedded sandstones: towards relative permeability curves for unstable displacement. ECMOR 2022, The Hague, Netherlands, 5 - 7 September 2022. Utrecht, Netherlands: European Association of Geoscientists and Engineers. doi: 10.3997/2214-4609.202244019
2020
Journal Article
Predicting plume spreading during CO2 geo-sequestration: benchmarking a new hybrid finite element-finite volume compositional simulator with asynchronous time marching
Shao, Qi, Matthai, Stephan, Driesner, Thomas and Gross, Lutz (2020). Predicting plume spreading during CO2 geo-sequestration: benchmarking a new hybrid finite element-finite volume compositional simulator with asynchronous time marching. Computational Geosciences, 25 (1), 299-323. doi: 10.1007/s10596-020-10006-1
2020
Conference Publication
Numerical Modelling of CO2 Migration through Faulted Storage Strata with a New Asynchronous FE-FV Compositional Simulator
Shao, Q. and Matthai, S. (2020). Numerical Modelling of CO2 Migration through Faulted Storage Strata with a New Asynchronous FE-FV Compositional Simulator. ECMOR XVII, Online, 14-17 September 2020. Bunnik, Netherlands: European Association of Geoscientists & Engineers. doi: 10.3997/2214-4609.202035016
Featured
2020
Journal Article
ARC-Net: an efficient network for building extraction from high-resolution aerial images
Liu, Yaohui, Zhou, Jie, Qi, Wenhua, Li, Xiaoli, Gross, Lutz, Shao, Qi, Zhao, Zhengguang, Ni, Li, Fan, Xiwei and Li, Zhiqiang (2020). ARC-Net: an efficient network for building extraction from high-resolution aerial images. IEEE Access, 8 9165718, 154997-155010. doi: 10.1109/access.2020.3015701
Featured
2019
Journal Article
Efficient modelling of solute transport in heterogeneous media with discrete event simulation
Shao, Q., Matthäi, S. K. and Gross, L. (2019). Efficient modelling of solute transport in heterogeneous media with discrete event simulation. Journal of Computational Physics, 384, 134-150. doi: 10.1016/j.jcp.2019.01.026
2019
Journal Article
Efficient Modelling of CO2 Injection and Plume Spreading with Discrete Event Simulation (DES)
Shao, Qi, Matthai, Stephan and Gross, Lutz (2019). Efficient Modelling of CO2 Injection and Plume Spreading with Discrete Event Simulation (DES). SSRN Electronic Journal, 1-9. doi: 10.2139/ssrn.3365738
2019
Conference Publication
Magnetotelluric forward modelling in general anisotropic media using open-source package esys-escript
Zhou, Y., Gross, L., Shao, Q. and Zhao, Z. (2019). Magnetotelluric forward modelling in general anisotropic media using open-source package esys-escript. 81st EAGE Conference and Exhibition 2019, London, United Kingdom, 3-6 June 2019. Netherlands: EAGE Publications. doi: 10.3997/2214-4609.201900700
2019
Conference Publication
Magnetotelluric forward modelling in general anisotropic medium using esys-escript
Zhou, Yan, Gross, Lutz and Shao, Qi (2019). Magnetotelluric forward modelling in general anisotropic medium using esys-escript. International Workshop on Gravity, Electrical & Magnetic Methods and Their Applications, Xi'an, China, 19–22 May 2019. Tulsa, OK United States: Society of Exploration Geophysicists. doi: 10.1190/GEM2019-041.1
2018
Conference Publication
Efficient modelling of CO2 injection and plume spreading with discrete event simulation (DES)
Shao, Qi, Matthai, Stephan and Gross, Lutz (2018). Efficient modelling of CO2 injection and plume spreading with discrete event simulation (DES). 14th Greenhouse Gas Control Technologies Conference (GHGT-14), Melbourne, Australia, 21-26 October 2018. International Energy Agency Greenhouse Gas, IEAGHG.
2016
Journal Article
Field evaluation of three modified infiltration models for the simulation of rainfall sequences
Shao, Qi and Baumgartl, Thomas (2016). Field evaluation of three modified infiltration models for the simulation of rainfall sequences. Soil Science, 181 (2), 45-56. doi: 10.1097/SS.0000000000000136
2015
Journal Article
RunCA: a cellular automata model for simulating surface runoff at different scales
Shao, Qi, Weatherley, Dion, Huang, Longbin and Baumgartl, Thomas (2015). RunCA: a cellular automata model for simulating surface runoff at different scales. Journal of Hydrology, 529 (P3), 816-829. doi: 10.1016/j.jhydrol.2015.09.003
2015
Other Outputs
Surface hydrological modelling for rehabilitated landforms
Shao, Qi (2015). Surface hydrological modelling for rehabilitated landforms. PhD Thesis, Sustainable Minerals Institute, The University of Queensland. doi: 10.14264/uql.2015.394
2014
Conference Publication
A cellular automata-based run-of model and its application in mined land rehabilitation designs
Shao, Q., Baumgartl, T., Huang, L. and Weatherley, D. (2014). A cellular automata-based run-of model and its application in mined land rehabilitation designs. Life-of-Mine 2014, Brisbane, QLD, Australia, 16-18 July 2014. Carlton, VIC, Australia: AUSIMM.
Supervision
Availability
- Dr Qi Shao is:
- Available for supervision
Before you email them, read our advice on how to contact a supervisor.
Supervision history
Completed supervision
-
2023
Doctor Philosophy
Soil Erosion Modelling for Rehabilitated Landforms
Associate Advisor
Other advisors: Professor Neil McIntyre
Media
Enquiries
For media enquiries about Dr Qi Shao's areas of expertise, story ideas and help finding experts, contact our Media team: