Concept information
Preferred term
discrete element method
Definition
- A discrete element method (DEM), also called a distinct element method, is any of a family of numerical methods for computing the motion and effect of a large number of small particles. Though DEM is very closely related to molecular dynamics, the method is generally distinguished by its inclusion of rotational degrees-of-freedom as well as stateful contact and often complicated geometries (including polyhedra). With advances in computing power and numerical algorithms for nearest neighbor sorting, it has become possible to numerically simulate millions of particles on a single processor. Today DEM is becoming widely accepted as an effective method of addressing engineering problems in granular and discontinuous materials, especially in granular flows, powder mechanics, and rock mechanics. DEM has been extended into the Extended Discrete Element Method taking heat transfer, chemical reaction and coupling to CFD and FEM into account. (Wikipedia, The Free Encyclopedia, https://en.wikipedia.org/wiki/Discrete_element_method)
Broader concept
Entry terms
- distinct element method
In other languages
URI
http://data.loterre.fr/ark:/67375/MDL-LJMZRMR1-P
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