References
- Cundall, P. A., and Strack, O. D.L., 1979. Discrete numerical model for granular assemblies, Géotechnique 29 (1979), pp. 47–64.
- Gao, D., Morley, N. B., and Dhir, V., 2003. Numerical simulation of wavy falling film flows using VOF method, Journal of Computational Physics 192 (10) (2003), pp. 624–642.
- Gao, D., et al., 2006. Momentum transfer between polydisperse particles in dense granular flow, Journal of Fluids Engineering 128 (1) (2006), pp. 62–68.
- Gera, D., Gautam, M., Tsuji, Y., Kawaguchi, T., and Tanaka, T., 1998. Computer simulation of bubbles in large-particle fluidized beds, Powder Technology 98 (1998), pp. 38–47.
- Gera, D., Syamlal, M., and O'Brien, T. J., 2004. Hydrodynamics of particle segregation in fluidized beds, International Journal of Multiphase Flow 30 (2004), pp. 419–428.
- Goldhirsch, I., 2003. Rapid granular flows, Annual Review of Fluid Mechanics 35 (2003), pp. 267–293.
- Herbst, J. A., and Pate, W. T., 2001. Dynamic modeling and simulation of SAG/AG circuits with MinOOcad: off-line and on-line applications. Presented at Proceedings of international autogenous and semiautogenous grinding technology. Vancouver, B.C., Canada, 30 September–3 August, 2001.
- Herbst, J. A., and Potapov, A. V., 2004. Making a discrete grain breakage model practical for comminution equipment performance simulation, Powder Technology 143–144 (2004), pp. 144–150.
- Hollow, J., and Herbst, J., 2006. Attempting to quantify improvements in SAG liner performance in a constantly changing ore environment. Presented at Proceedings of international autogenous and semiautogenous grinding technology. Vancouver, B.C., Canada, .
- Huilin, L., Yurong, H., and Gidaspow, D., 2003. Hydrodynamics modelling of binary mixture in a gas bubbling fluidized bed using the kinetic theory of granular flow, Chemical Engineering Science 58 (2003), pp. 1197–1205.
- Jenkins, J. T., and Savage, S. B., 1983. A theory for the rapid flow of identical, smooth, nearly elastic, spherical particles, Journal of Fluid Mechanics 130 (1983), pp. 187–202.
- Landry, J. W., Grest, G. S., Silbert, L. E., and Plimpton, S. J., 2003. Confined granular packings: structure, stress, and forces, Physical Review E 67 (2003), p. 041303.
- Li, J., and Kuipers, J. A.M., 2002. Effect of pressure on gas–solid flow behavior in dense gas-fluidized study, Powder Technology 127 (2002), pp. 173–184.
- Monaghan, J., 1988. An introduction to SPH, Computer Physics Communications 48 (1988), pp. 89–96.
- Monaghan, J., 1989. On the problem of penetration in particle methods, Journal of Computational Physics 82 (1989), pp. 1–15.
- Monaghan, J., 1994. Simulating free surface flows with SPH, Journal of Computational Physics 110 (1994), pp. 399–406.
- Monaghan, J., 1997. Implicit SPH Drag and Dusty Gas Dynamics, Journal of Computational Physics 138 (1997), pp. 801–820.
- Monaghan, J., 2000. SPH without a tensile instability, Journal of Computational Physics 159 (2000), pp. 290–311.
- Monaghan, J., and Kocharyan, A., 1995. SPH simulation of multi-phase flow, Computer Physics Communications 87 (1995), pp. 225–235.
- Morris, J. P., Fox, P. J., and Zhu, Y., 1997. Modeling low Reynolds number incompressible flows using SPH, Journal of Computational Physics 136 (1997), pp. 214–226.
- Plimpton, S., 1995. Fast parallel algorithms for short-range molecular dynamics, Journal of Computational Physics 117 (1995), pp. 1–19.
- Potapov, A., et al., 2007. A DEM–PBM fast breakage model for simulation of comminution process. Presented at Proceedings of discrete element methods. Brisbane, Australia, .
- Qiu, X., et al., 2001. Prediction of wear of mill lifters using discrete element methods. Presented at Proceedings of international autogenous and semiautogenous grinding technology. Vancouver, B.C., Canada, 30 September–3 August, 2001.
- Rong, D., and Horio, M., 1999. DEM simulation of char combustion in a fluidized bed. Presented at Proceedings of second international conference on CFD in the minerals and process industry. CSIRO, Melbourne, Australia, 6–8, December, 1999.
- Savage, S. B., 1998. Analyses of slow high-concentration flows of granular materials, Journal of Fluid Mechanics 377 (1998), pp. 1–26.
- Silbert, L. E., et al., 2001. Granular flow down an inclined plane: Bagnold scaling and rheology, Physical Review E 64 (2001), p. 051302.
- Srivastava, A., and Sundaresan, S., 2003. Analysis of a frictional-kinetic model for gas-particle flow, Powder Technology 129 (2003), pp. 72–85.
- Sun, J., and Battaglia, F., 2006. Hydrodynamic modeling of particle rotation for segregation in bubbling gas-fluidized beds, Chemical Engineering Science 61 (2006), pp. 1470–1479.
- Syamlal, M., Rogers, W., O'Brien, T. J., and , MFIX Documentation, 1998. Technical report, Morgantown Energy Technology Center of U.S. 1998, Department of Energy, Morgantown, West Virginia. Available from: www.mfix.org.
- Walton, O. R., 1992. "Numeical simulation of inelastic, frictional particle–particle interaction". In: Roco, M. C., ed. Particulate two-phase flow. London: Butterworth-Heinemann; 1992. pp. 1249–1253.
- Walton, O. R., and Braun, R. L., 1986. Viscosity, granular-temperature, and stress calculations for shearing assemblies of inelastic, frictional disks, Journal of Rheology 30 (1986), p. 949.