LS-DYNA Analysis: Improving the Precision of Discrete element Simulations through Calibration Models

Predictive Engineering White Paper - Improving the Precision of Discrete element Simulations through Calibration Models


This Predictive Engineering white paper was delivered at the 13th International LS-DYNA User's Conference and was developed to support our LS-DYNA consulting services work.


Abstract of White Paper

The Discrete Element Method (DEM) is fast becoming the numerical method of choice for modelling the flow of granular material. Mining, agriculture and food handling industries, among many others, have been turning their attention towards this powerful analysis technique. In this paper, we present three simple calibration modeling tactics that should be the starting point for every DEM simulation of dry and semi-dry granular material. The three tests are designed to be as simple as possible in order to minimize the run time of the test simulations. The tests are developed to be run in a specific order, providing a sequential calibration procedure that does not involve multiple unknown variables in each test.

Other standard testing methods are briefly discussed, such as the rotating drum and the shear cell (Jenike) tests. The complexity of these tests does not lend itself well to initial numerical model calibration as each test involves many unknown variables. However, they are mentioned as an extension of the three basic test models. The paper will help analysts to increase the precision and validity of their discrete element modelling work.

Predictive Engineering LS-DYNA White Paper - Improving the Precision of DEM Analysis - LS-DYNA Consulting Services

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