Modern numerical methods for high-fidelity simulation of geohazards

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-SEID: 101182721
EC Contribution
€12,696
Consortium Size
15 orgs
Start Year
2025
Summary

Geohazards, such as rock avalanches, landslides and debris flows, are commonly recoganized as the slow-to-rapid gravitationally-driven processes that typically occur in mountain regions, such as Alps in Europe, Himalaya in Asia, Rocky in North Americas and Snowy in Australia, possessing potential hazards societies. With the advancement of computer science, numerical simulations of geohazards have become crucial in the modern geomechanics and geotechnical engineering. The fragmentation of current research into local national projects often falls short in comprehensive understanding of the evolution mechanisms. This gap results in a grey area in modern numerical methods for high-fidelity simulations, limiting accessibility for both scientific researchers and engineering practitioners. MONUGEO brings together the complementary expertise of our consortium members to develop a better understanding of triggering initiation, run-out and deposition (and/or interaction with protective obstacles) processes, and in turn to produce the ground-breaking numerical tools for the high-fidelity predictions. Our international and interdisciplinary consortium will also prefer to an integrated research approach, involving laboratory experiments, scaled centrifuge physics modelling tests, and region-scale application with geological survey. This integrated methodology will serve to validate our developed computing paradigms and numerical toolbox, and to apply them to realistic scenario.

Consortium (15)

Project Results (12)

Source: CORDIS, the EU research results database.

Publications (9)
A generalized higher-order phase-field model for brittle fracture in anisotropic rocks
Journal of the Mechanics and Physics of Solids· 2026DOI
Sijia Liu, Yunteng Wang, Xueyu Geng, Wei Wu
A state- and rate-dependent constitutive model for granular materials with interstitial fluid: solid-like, fluid-like behaviours and their transitions
Géotechnique· 2026DOI
Yadong Wang, Xiaogang Guo, Wei Wu, Hongwei Zhou, Zhi Li
Hadamard compatibility conditions for Rivlin–Ericksen tensors on weak singular surfaces
International Journal of Engineering Science· 2026DOI
Markus Kaczvinszki, Wei Wu
Hydro-mechanical response of herbaceous root-reinforced soils and its implications for vegetated-slope stability
Engineering Geology· 2026DOI
Xuan Kang, Shun Wang, Xuan Zou, Barbara Świtała, Wei Wu
Mechanical behaviour and shear localisation of gravel soils: experimental study and numerical modelling
Géotechnique· 2026DOI
Xuan Kang, Shun Wang, Wei Wu, Dianqing Li
Pore-pressure generation initiating a rainfall-induced landslide: experimental insights and numerical modelling
Bulletin of Engineering Geology and the Environment· 2026DOI
Xuan Kang, Shun Wang, Zhengyang Su, Dianqing Li, Wei Wu
Progressive Failure Analysis of Wellbore Cement Sheaths in Salt Cavern Energy Storage Under Gas Injection–Production Cycles
Rock Mechanics and Rock Engineering· 2026DOI
Xin Liu, Xuan Kang, Yadong Wang, Yunteng Wang, Wei Wu
A thermodynamically consistent phase-field model for frictional fracture in rocks
International Journal of Plasticity· 2025DOI
Sijia Liu, Yunteng Wang
Dual-stress origin of local stress minima in dense granular suspensions
Physics of Fluids· 2025DOI
Xiaogang Guo, Wei Wu, Xuan Kang, Ivan Zaboev
Deliverables (3)