SELFE (a Semi-implicit Eulerian–Lagrangian Finite-Element model)

SELFE is an open-source community-supported code. It is based on unstructured triangular grids, and designed for the effective simulation of 3D baroclinic circulation.

unstructured triangular grids3D baroclinic circulation

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Contributor(s)

Initial contribute: 2021-02-07

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Classification(s)

Application-focused categoriesNatural-perspectiveLand regions
Application-focused categoriesNatural-perspectiveOcean regions

Detailed Description

English {{currentDetailLanguage}} English

Quoted from: http://www.stccmop.org/knowledge_transfer/software/selfe 

SELFE is an open-source community-supported code. It is based on unstructured triangular grids, and designed for the effective simulation of 3D baroclinic circulation. Originally developed to meet stringent modeling challenges for the Columbia River estuary and plume, SELFE has now been extensively applied to study circulation in coastal margins around the world. Several related codes constitute an interdisciplinary modeling system that is growing organically around SELFE.
Contact us at selfe@stccmop.org

Major Characteristics 

SELFE uses a semi-implicit finite-element/volume Eulerian-Lagrangian algorithm to solve the Navier-Stokes equations (in either hydrostatic and non-hydrostatic form). The numerical algorithm is high-order, robust, stable and computationally efficient. It also naturally incorporates wetting and drying of tidal flats.

Application areas

  • Cross-scale river-to-ocean circulation
  • Tsunami hazards
  • Storm surge
  • Sediment transport
  • Ecology & water quality
  • Oil spill
  • Short wave-current interaction (Wind Wave Model II)

模型元数据

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SELFE team (2021). SELFE (a Semi-implicit Eulerian–Lagrangian Finite-Element model), Model Item, OpenGMS, https://geomodeling.njnu.edu.cn/modelItem/5043f323-fe7c-49f3-a481-112e6075f76c
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Contributor(s)

Initial contribute : 2021-02-07

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History

Last modifier
Yue Songshan
Last modify time
2021-02-07
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