A distinct element simulation including surface tension – towards the modeling of gas hydrate behavior |
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Authors: | S Kreiter V Feeser M Kreiter T Mörz B Grupe |
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Institution: | 1.DFG – Research Center Ocean Margins,Bremen University,Bremen,Germany;2.Institute of Geosciences,Christian-Albrechts-Universit?t zu Kiel,Kiel,Germany;3.Max Planck Institute for Polymer Research,Mainz,Germany;4.AG WUM, Technische Universit?t Berlin,Berlin,Germany |
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Abstract: | Gas hydrate bearing sediments are an integral part of the world’s continental margins. Several tsunamigenetic continental
slope failure events have been triggered by gas hydrates, but their mechanical behavior is poorly understood. In this work,
we propose a method to simulate a surface tensed medium such as gas hydrate in soil, using distinct element method (DEM).
For implementation in sediment pore size, we scaled up attractive particle interactions governing surface tension on molecular
level. Several virtual experiments are used to benchmark the proposed method. A simulation of gas hydrate growth in sediment
with differing grain sizes demonstrates the potential of the new approach. |
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Keywords: | distinct element method gas hydrate growth grain size effects PFC porous sediments surface tension |
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