Chandramohan, R. and Powell, M. S.: Measurement of particle interaction properties for incorporation in the discrete element method simulation, Miner. Eng., 18, 1142–1151, https://doi.org/10.1016/j.mineng.2005.06.004, 2005.
David, J. and Kruses, P. E.: Conveyor Belt Transfer Chute Modeling and Other Applications using The Discrete Element Method in the Material Handling Industry, available at: http://www.ckit.co.za/secure/conveyor/papers/troughed/conveyor/conveyor.htm, last access: August 2016.
Dewicki, G.: Bulk Material Handling and Processing – Numerical Techniques and Simulation of Granular Material, Bulk Solids Handl., 23, 2–5, 2003.
Di Renzo, A. and Di Maio, F. P.: Comparison of contact-force models for the simulation of collisions in DEM-based granular flow codes, Chem. Eng. Sci., 59, 525–541, https://doi.org/10.1016/j.ces.2003.09.037, 2004.
Donohue, T. J., Roberts, A. W., Wheeler, C. A., and McBride, W.: Computer Simulations as a Tool for Investigating Dust Generation in Bulk Solids Handling Operations, Part. Part. Syst. Charact., 26, 265–274, 2010.
Grima, A. P. and Wypych, P. W.: Development and validation of calibration methods for discrete element modelling, Granul. Matter, 13, 127–132, https://doi.org/10.1007/s10035-010-0197-4, 2010.
Grima, A. P. and Wypych, P. W.: Discrete element simulations of granular pile formation: Method for calibrating discrete element models, Eng. Comput., 28, 314–339, https://doi.org/10.1108/02644401111118169, 2011.
Gröger, T. and Katterfeld, A.: Application of the Discrete Element Method in Materials Handling – Part 3: Transfer Stations, Bulk Solids Handl., 27, 158–167, 2007.
Hastie, D. B. and Wypych, P. W.: Experimental validation of particle flow through conveyor transfer hoods via continuum and discrete element methods, Mech. Mater., 42, 383–394, https://doi.org/10.1016/j.mechmat.2009.11.007, 2010.
Hou, Y. and Meng, Q.: Dynamic characteristics of conveyor belts, J. China Univ. Min. Technol., 18, 629–633, https://doi.org/10.1016/S1006-1266(08)60307-7, 2008.
Huque, A. G. and McLean, S. T.: Methods to predict material trajectories from belt conveyors and impact plates Part 1: Review, Bulk Solids Handl., 22, 348–354, 2002.
Jensen, R. P., Bosscher, P. J., Plesha, M. E., and Edil, T. B.: DEM simulation of granular media–structure interface: effects of surface roughness and particle shape, Int. J. Numer. Anal. Methods Geomech., 23, 531–547, 1999.
Mazurkiewicz, D.: Analysis of the ageing impact on the strength of the adhesive sealed joints of conveyor belts, J. Mater. Process. Technol., 208, 477–485, 2008.
McIlvenna, P. and Mossad, R.: Two Dimensional Transfer Chute Analysis Using a Continuum Method, in: Third International Conference on CFD in the Minerals and Process Industries CSIRO, 547–552, Melbourne, Australia, available at: available at: http://www.cfd.com.au/cfd_conf03/papers/064Mci.pdf (last access: August 2016), 2003.
Minkin, A.: Analysis of transfer stations of belt conveyors with help of discrete element method (DEM) in the mining industry, Transp. Logist., 12, 1–6, 2012.
Roberts, A. W.: Chute Performance and Design for Rapid Flow Conditions, Chem. Eng. Technol., 26, 163–170, https://doi.org/10.1002/ceat.200390024, 2003.
Roberts, A. W.: Chute Design Considerations for Feeding and Transfer, available at: http://login.totalweblite.com/Clients/doublearrow/beltcon 2001/3.chute design considerations for feeding and transfer.pdf (last acces: August 2016), unpublished data.
Scott, O. J.: Chute Design Considerations for Feeding and Transfer, in Conveyor Transfer Chute Design in Modern Concepts in Belt Conveying and Handling Bulk Solids, The Institute for Bulk Materials Handling Research, University of Newcastle, 809–820, 1992.
Scott, O. J. and Choules, P. R.: The use of impact plates in conveyor transfers, Tribol. Int., 26, 353–359, https://doi.org/10.1016/0301-679X(93)90072-9, 1993.
Spaans, C.: The calculation of the main resistence of belt conveyors, Bulk Solids Handl., 11, 1999.
Wensrich, C. M.: Evolutionary optimisation in chute design, Powder Technol., 138, 118–123, https://doi.org/10.1016/j.powtec.2003.08.062, 2003.
Wensrich, C. M. and Wheeler, C. A.: Evolutionary optimisation in loading chute design, in: 8th International Conference on bulk materials storage, handling and transportation, University of Wollongong, Australia, 2004.
Zhang, S. and Xia, X.: A New Energy Calculation Model of Belt Conveyor, in AFRICON, 2009, 1–6, Nairobi, available at: http://timetable.cput.ac.za/_other_web_files/_cue/ICUE/2009/PPT/Presentation-Xia X.pdf, 2009.
Zhang, S. and Xia, X.: Modeling and energy efficiency optimization of belt conveyors, Appl. Energy, 88, 3061–3071, 2011.