10.24423/engtrans.442.2005
Experimental Analysis of Granular Material Flows Using the Technique of Digital Particle Image Velocimetry
References
ACI 313, Alternate design procedure, Discussion Document before ACI Committee 313 on Conctere Bins, Silos and Bunkers for Storing Granular Materials, ACI, Detroit, 1989.
AS 3774, Loads on bulk solids containers, Australian Standards Association of Australia, Sydney, 1986.
ASAE EP433, Loads exerted by free-flowing grains on bins, ASAE Engineering Practice EP433, ASAE Standards, 1997.
AYUGA F., GUAITA M., AGUADO P.J., COUTO A., Discharge and the eccentricity of the hopper influence on the silo wall pressures, J. Eng. Mechanics, 127, 10, 1067–1074, 2001.
BLAIR-FISH P.M., BRANSBY P.L., Flow patterns and wall stresses in a mass-flow bunker, Journal of Engineering for Industry, 95, 17–26, 1973.
BLIGHT G.E, Eccentric emptying of a large coal bin with six outlets, Bulk Solids Handling, 11, 2, 451–457, 1991.
BOHRNSEN, J.U., ANTES, H., OSTENDORF, M., SCHWEDES, J., Silo discharge: Measurement and Simulation of Dynamic Behaviour in Bulk Solids, Chem. Eng. Technol., 27, 71–76, 2004.
BORCZ A., EL RAHIM HAMDY ABD, Wall pressure measurements in eccentricity discharged cement silos, Bulk Solids Handling, 11, 2, 469–476, 1991.
CARSON J. W., Silo failures: Case histories and lessons learned, Third Israeli Conference for Conveying and Handling of Particulate Solids, Dead Sea. Israel, May, 2000.
CLEAVER, J. A. S., NEDDERMAN, R. M., The measurement of velocity distributions in conical hoppers, Chemical Engineering Science, 48, 21, 3693–3703, 1993.
DRESCHER, A., COUSENS, T.W., BRANSBY, P.L., Kinematics of the mass flow of granular material through a plane hopper, Geotechique, 28, 1, 27–42, 1978.
DRESCHER, A, Analytical methods in bin-load analysis, Elsevier, Amsterdam 1991.
DRESCHER, A., FERJANI, M., Revised model for plug/funnel flow in bins, Powder Technology, 141, 44–54, 2004.
ENV 1991–Part 4 Eurocode 1, Basis of design and actions on structures. Part 4, Actions on silos and tanks, Brussels, Belgium 1995.
GIUNTA, J.S., Flow patterns of granular materials in flat-bottom bins, Journal of Engineering for Industry, Transactions of the ASME, 91, 406–413, 1969.
JENIKE, A. W., Gravity flow of bulk solids, University of Utah Engineering Experiment Station, Bulletin 108, 1961.
JENIKE, A. W., Storage and flow of solids, University of Utah Engineering Experiment Station, Bulletin 123, 1964.
JENIKE A. W., JOHANSON J. R., On the theory of bin loads, Transactions ASME, 91, Ser. B, 2, 339–344, 1969.
KVAPIL, R., Theorie der Schuttgutbewegung, VEB Verlag Technik, Berlin 1959.
LITWINISZYN, J., The model of a random walk of particles adopted to researches on problem of mechanics of loose media, Bulletin l'Academie Polonaise Sciences, 11, 61–70, 1963.
LUEPTOW, R.M., AKONUR A., SHINBROT T., PIV for granular flows, Experiments in Fluids, 28, 2, 183–186, 2000.
MICHALOWSKI, R.L., Flow of granular material through a plane hopper, Powder Technology, 39, 29–40, 1984.
MICHALOWSKI, R.L., Flow of granular media through a plane parallel/converging bunker, Chemical Engineering Science, 42, 11, 2587–2596, 1987.
MOLENDA M., HORABIK J., THOMPSON S. A., Ross I. J., Bin loads induced by eccentric filling and discharge of grain, Transactions of the ASAE, 45, 3, 781–785, 2002.
MOLENDA M., HORABIK J., Physical properties of granular alimentary materials, Acta Agrophysica, Insitute of Agrophysic, Polish Academy of Sciences, Lublin 2002.
MOREEA, S.B.M., NEDDERMAN, R.M, Exact Stress and velocity distributions in a cohesion-less material discharging from a conical hopper, Chemical Engineering Sciences, 51, 16, 3931–3942, 1996.
MROZ Z., SZYMAŃSKI C., Simplified theory of granular material flow in converging channels, Arch. Inz. L4d., 17, 551–578, 1971.
MULLINS, W. W., Critique and comparison of two stochastic theories of gravity-induced particle flow, Powder Technology, 23, 115–119, 1979.
MULLINS, W. W., Stochastic theory of particle flow under gravity, Journal of Applied Physics, 43, 665–677, 1972.
NEDDERMAN, R. M., TUZON, U., A kinematic model for the flow of granular materials, Powder Technology, 22, 243–253, 1979.
NEDDERMAN, R. M., Measurement of the velocity profile in a granular material discharging from a conical hopper, Chemical Engineering Science, 43, 7, 1507–1516, 1988.
NEDDERMAN, R. M., The use of the kinematic model to predict the development of the stagnant zone boundary in the batch discharge of a bunker, Chemical Engineering Science, 50, 6, 959–965, 1995.
NGUYEN, T.V., BRENNEN, C., SABERSKY, R.H., Gravity flow of granular materials in conical hoppers, Journal of Applied Mechanics, Transactions of the ASME, 46, 529–535, 1979.
OSTENDORF, M., SCHWEDES, J., Application of optical measurement techniques on the investigation of bulk solids flow behaviour in silos, Int. Congress for Particle Technology, Partec 2004, Nurnberg, Germany, 16–18 March, 2004.
PARISEAU, W.G., Discontinuous velocity fields in gravity flows of granular materials through slots, Powder Technology, 3, 218–226, 1969/70.
PITMAN, E. B., Stress and Velocity fields in two- and three dimensional hoppers, Powder Technology, 47, 219–231, 1986.
POLDERMAN H.G., SCOTT A.M., Boom J., Solids stresses in bunkers with inserts, Int. Chem. Engng. Symp. Ser., 91, 227–240, 1985.
QUENOT, G. M., PAKLEZA, J., KOWALEWSKI, T. A., Particle image velocimetry with optical flow, Experiments in Fluids, 25, 177–189, 1998.
ROTTER, J.M., The analysis of steel bins subject to eccentric discharge. Proc., 2nd Inter. Conference on Bulk Materials Storage Handling and Transportation, Ins. of Eng., Wollongong, Australia, July, 264–271, 1986.
ROTTER, J.M., Guide for the economic design of metal silos, E&FN Spon, London, 1998.
SIELAMOWICZ, I., KOWALEWSKI, T.A., DPIV technique in modelling granular material flows in a model of silo made of Plexiglass, Int. Congress for Particle Technology, Partec 2004, Nurnberg, Germany, 16–18 March, 2004.
SIELAMOWICZ I., KOWALEWSKI T.A., BLOSISKI S., Central and eccentric granular material flows in bins/hoppers recorded by optical technique DPIV, Acta Agrophysica, 4, 2, 2004.
SIELAMOWICZ I., BLOSISKI S., Particle image velocimetry analysis of granular material flows, XXI International Congress of Theoretical and Applied Mechanics, Warsaw, 15–21 August, 2004.
SIELAMOWICZ I., BLOSISKI S. and KOWALEWSKI T.A., Optical technique DPIV in measurements of granular material flows, Part 1 of 3-plane hoppers, Chemical Engineering Science, 60, 2, 589–598, 2005.
TAKAHASHI, H., YANAI, H., Flow profile and void fraction of granular solids in a moving bed, Powder Technology, 7, 205–214, 1973.
TÜZÜN, U., NEDDERMAN, R.M., Investigation of the flow boundary during steady-state discharge from a funnel-flow bunker, Powder Technology, 31, 1, 27–43, 1982.
TÜZÜN, U., HOULSBY, G. T., NEDDERMAN, R.M., SAVAGE, S.B., Flow of granular materials – 2. Velocity distributions in slow flow, Chemical Engineering Science, 37, 12, 1691–1709, 1982.
WALKER, D. M., An approximate theory for pressures and arching in hoppers, Chemical Engineering Science, 21, 975–997, 1966.
WATERS, A.J., DRESCHER, A., Modelling plug flow in bins/hoppers, Powder Technology, 113, 168–175, 2000.
WATSON G.R., Flow patterns in flat-bottomed silos, Ph. D. thesis, University of Edinburgh, 1993.
WATSON, G.R., ROTTER J.M., A finite element kinematic analysis of planar granular solids flow, Chemical Engineering Science, 51, 3967–3978, 1996.
WEIR, G.J., A mathematical model for dilating, non-cohessive granular flows in steep-walled hoppers, Chemical Engineering Science, 59, 149–161, 2004.
DOI: 10.24423/engtrans.442.2005