Print Email Facebook Twitter Recent Advances in MercuryDPM Title Recent Advances in MercuryDPM Author Thornton, Anthony R. (University of Twente; Mercury Lab BV) Plath, Timo (University of Twente) Ostanin, Igor (University of Twente) Götz, Holger (Friedrich-Alexander-Universität Erlangen-Nürnberg) Bisschop, Jan Willem (University of Twente; Mercury Lab BV) Hassan, Mohamed (University of Twente) Roeplal, R.N. (TU Delft Transport Engineering and Logistics) Wang, Xiuqi (University of Twente) Pourandi, Sahar (University of Twente) Weinhart, Thomas (University of Twente; Mercury Lab BV) Date 2023 Abstract In this paper we introduce the open-source code MercuryDPM: a code for simulating discrete particles. The paper discusses software and management issues that may be interesting for the developers of other open-source codes. Then we review the new features that have been added since the last publication: an improved Hertz-Mindlin model; a new liquid bridge model of Lian and Seville; a droplet-spray model; better support for re-creating complex, measured particle size distributions; a new implementation of rigid clumps; an implementation of elastic membranes; a wear model for walls; a soft-kill feature and a cloud-deployment interface for AWS. Subject (Wet) Granular MaterialsCloud compungDEMDPMMercuryDPMopen-source To reference this document use: http://resolver.tudelft.nl/uuid:ce8caae5-ca57-46ef-b749-38474a36cba4 DOI https://doi.org/10.1007/s11786-023-00562-x ISSN 1661-8270 Source Mathematics in Computer Science, 17 (2) Part of collection Institutional Repository Document type journal article Rights © 2023 Anthony R. Thornton, Timo Plath, Igor Ostanin, Holger Götz, Jan Willem Bisschop, Mohamed Hassan, R.N. Roeplal, Xiuqi Wang, Sahar Pourandi, Thomas Weinhart Files PDF s11786_023_00562_x.pdf 2.34 MB Close viewer /islandora/object/uuid:ce8caae5-ca57-46ef-b749-38474a36cba4/datastream/OBJ/view