Evaluate the feasibility of using the distinct‐ element modeling to study the flow and segregation of frictional particles without cohesion.
Simulate an experimental test corresponding to the charge/discharge of a scale model batch hopper.
Live in-person introductory training course in Minneapolis, Minnesota. This course provides an overview of the capabilities and features in 3DEC.
The ARMA Student Design Competition (SDC) aims to engage students in the practice of rock engineering and promote interaction with peers and professionals from academia and industry. Following the success of SDC 2021 with a case study in slope stability, we are excited to continue SDC 2022 in the field of tunneling design.
Dr. Xing has over 8 years of working experience on geomechanics, both in industry and academics, in numerical simulations and laboratory experiments. His expertise is on enhancing energy extraction from subsurface with engineering treatment, including geothermal, unconventional oil/gas resources, etc. He has experience in developing analytical solutions, numerical codes, laboratory experiments, and data-based methods related to various geomechanics applications.
Dr. Xing has worked on different projects including: numerical modeling of the stimulation of Enhanced Geothermal Systems (EGS) with DOE’s FORGE project, in-situ stress measurements for geothermal and oil/gas reservoirs with newly proposed temperature signatures and flowback methods, machine learning models to predict formation properties using drilling data, core analysis for unconventional oil/gas reservoirs, numerical modeling and experimental investigation of hydraulic fracturing growth in layered reservoirs, and thermal-hydrological-mechanical analysis in hydrate bearing sediments.
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