![]() ![]() Users can, for example, extract force acting on a specific geometry over time and compare results back to back between multiple simulation decks, track particles residence time over the course of a simulation, visualize networks of contacts and bonds in a new flexible way, visualize DEM data as a continuum or use EDEM data to calculate post-processing properties for their simulations such as segregation index or tortuosity. Using the library, users can extract specific data from a simulation deck and process that data in a customizable and reusable way. EDEMpy is a Python library for post-processing and analysis of EDEM simulation data and takes advantage of the EDEM. EDEM has developed a tool called ‘EDEMpy’ that can be used to process this large amount of data. The ability to run larger simulations means that there is a high volume of data that is generated. This enables users to directly couple EDEM to flexible body simulations to cover a wide range of applications such as belts, sheet panels, elastic membranes and more. This means geometry sections can change shape and deform with input via the EDEM Coupling Interface. ![]() The EDEM solver engines have been enhanced to facilitate continuous modification of a geometry structure during simulation. Image courtesy of EDEM.īeing able to simulate how a geometry is being deformed as a result of a bulk material acting on it is something that is of key interest for numerous applications and which has been under development at EDEM. Example of geometry deformation for a mill (before and after). ![]()
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