Mechanical and numerical models for sea ice dynamics on small-meso scale 被引量：1

Mechanical and numerical models for sea ice dynamics on small-meso scale

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摘要 On small-meso scale, the sea ice dynamic characteristics are quite different from that on large scale. To model the sea ice dynamics on small-meso scale, a new elastic-viscous-plastic （EVP） constitutive model and a hybrid Lagrangian- Eulerian （HLE） numerical method are developed based on continuum theory. While a modified discrete element model （DEM） is introduced to model the ice cover at discrete state. With the EVP constitutive model, the numerical simulation for ice ridging in an idealized rectangular basin is carried out and the results are comparable with the analytical solution of jam theory. Adopting the HLE numerical model, the sea ice dynamic process is simulated in a vortex wind field. The furthering application of DEM is discussed in details for modeling the discrete distribution of sea ice. With this study, the mechanical and numerical models for sea ice dynamics can be improved with high precision and computational efficiency. On small-meso scale, the sea ice dynamic characteristics are quite different from that on large scale. To model the sea ice dynamics on small-meso scale, a new elastic-viscous-plastic （EVP） constitutive model and a hybrid Lagrangian- Eulerian （HLE） numerical method are developed based on continuum theory. While a modified discrete element model （DEM） is introduced to model the ice cover at discrete state. With the EVP constitutive model, the numerical simulation for ice ridging in an idealized rectangular basin is carried out and the results are comparable with the analytical solution of jam theory. Adopting the HLE numerical model, the sea ice dynamic process is simulated in a vortex wind field. The furthering application of DEM is discussed in details for modeling the discrete distribution of sea ice. With this study, the mechanical and numerical models for sea ice dynamics can be improved with high precision and computational efficiency.

作者季顺迎王安良李海岳前进

机构地区 State Key Laboratory of Structural Analysis for Industrial Equipment Key Laboratory of Polar Science of the State Oceanic Administration National Marine Environment Forecast Center

出处《Chinese Journal of Polar Science》 2008年第2期237-248,共12页 极地研究（英文版）

基金 supported by the National Natural Science Foundation of China(Grant No.40206004) partly by the open foundation of Key Laboratory of Polar Science of Science of the State Oceanic Administration,China(Grant No.KP2007004).

关键词 sea ice dynamics constitutive model numerical method discrete element model small-meso scale. sea ice dynamics, constitutive model, numerical method, discrete element model, small-meso scale.

分类号 P731.15 [天文地球—海洋科学]

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Chinese Journal of Polar Science

2008年第2期

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