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Mineral Processing and Extractive Metallurgy Review
An International Journal
Volume 36, 2015 - Issue 2
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Original Articles

New Relation for the Computation of Settling Velocities and Diameters of Spheres

W. J. Whiten The University of Queensland, Sustainable Minerals Institute, Julius Kruttschnitt Mineral Research Centre, Indooroopilly, Qld., Australia
&
C. E. Özer The University of Queensland, Sustainable Minerals Institute, Julius Kruttschnitt Mineral Research Centre, Indooroopilly, Qld., AustraliaCorrespondence[email protected]
Pages 92-102 | Published online: 25 Sep 2014

References

  • Abraham , F. F. , 1970 , “Functional dependence of drag coefficient of a sphere on reynolds number.” Physics of Fluids , 13 , pp. 2194 – 2195 .
  • Achenbach , E. , 1972 , “Experiments on the flow past spheres at very high reynold numbers.” Journal of Fluid Mechanics , 54 , pp. 565 – 575 .
  • Allen , H. S. , 1900 , “Motion of a sphere in a viscous fluid.” Philosophical Magazine , 50 , pp. 323 – 338 .
  • Arnold , H. D. , 1911 , “Limitations imposed by slip and inertia terms upon stoke's law for the motion of spheres through liquids.” Philosophical Magazine , 22 , pp. 755 – 775 .
  • Bacon , D. L. and Reid , E. G. , 1924 , The Resistance of Spheres in Wind Tunnels and in Air , Washington , DC : National Advisory Committee for Aeronautics (NACA) .
  • Bougas , A. and Stamatoudis , M. , 1993 , “Wall factor for acceleration and terminal velocity of falling spheres at high reynolds numbers.” Chemical Engineering & Technology , 16 , pp. 314 – 317 .
  • Brauer , H. , 1973 , “Impuls-, stoff- und wärmetransport durch die grenzfläche kugelförmiger partikeln.” Chemie Ingenieur Technik , 45 , pp. 1099 – 1103 .
  • Brauer , H. and Mewes , D. , 1972 , “Strömungswiderstand sowie stationärer und instationärer stoff- und wärmeübergang an kugeln.” Chemie Ingenieur Technik , 44 , pp. 865 – 868 .
  • Brown , P. P. and Lawler , D. F. , 2003 , “Sphere drag and settling velocity revisited.” Journal of Environmental Engineering , 129 , pp. 222 – 231 .
  • Castleman , R. A. , 1926 , The Resistance to the Steady Motion of Small Spheres in Fluids , Washington , DC : National Advisory Committee for Aeronautics (NACA) .
  • Cheng , N.-S. , 2009 , “Comparison of formulas for drag coefficient and settling velocity of spherical particles.” Powder Technology , 189 , pp. 395 – 398 .
  • Christiansen , E. B. and Barker , D. H. , 1965 , “The effect of shape and density on the free settling of particles at high reynolds numbers.” AIChE Journal , 11 , pp. 145 – 151 .
  • Clift , R. and Gauvin , W. H. , 1970 , “The motion of particles in turbulent gas streams.” Chemeca'70, Butterworths of Australia and The Institution of Chemical Engineers , Melbourne and Sydney , pp. 14 – 28.
  • Concha , F. and Almendra , E. R. , 1979 , “Settling velocities of particulate systems, 1. Settling velocities of individual spherical particles.” International Journal of Mineral Processing , 5 , pp. 349 – 367 .
  • Crane , 1982 , “Flow of fluids through valves, fittings and pipe.” Technical Paper No. 410M, Crane Co., USA.
  • CRC , 2007 . Properties of Water in the Range 0–100°C. In CRC Handbook of Chemistry and Physics, 87th Edition (CD-ROM Version 2007), Taylor and Francis, Boca Raton, Florida, pp. 6–2.
  • Dallavalle , J. M. , 1948 , Micrometrics , London : Pitman .
  • Davies , C. N. , 1945 , “Definitive equations for the fluid resistance of spheres.” The Proceedings of the Physical Society , 57 , pp. 259 – 270 .
  • Di Felice , R. , 1996 , “A relationship for the wall effect on the settling velocity of a sphere at any flow regime.” International Journal of Multiphase Flow , 22 , pp. 527 – 533 .
  • Di Felice , R. and Parodi , E. , 1996 , “Wall effects on the sedimentation velocity of suspensions in viscous flow.” AIChE Journal , 42 , pp. 927 – 931 .
  • Faxen , H. , 1923 , “Die bewegung einer starren kugel langs der achse eines mit zaher flussigkeit gefullten rohres.” Arkiv för Matematik, Astronomi och Fysik , 17 , pp. 1 – 28 .
  • Fidleris , V. and Whitmore , R. L. , 1961 , “Experimental determination of the wall effect for spheres falling in cylindrical vessels.” British Journal of Applied Physics , 12 , pp. 490 – 494 .
  • Fitch , B. , 1972 , “Calculating terminal settling rates in sedimentation.” Chemical Engineering , 79 , 96 – 98.
  • Flemmer , R. L. C. and Banks , C. L. , 1986 , “On the drag coefficient of a sphere.” Powder Technology , 48 , pp. 217 – 221 .
  • Fouda , A. E. and Capes , C. E. , 1976 , “Calculation of large numbers of terminal velocities or equivalent particle diameters using polynomial equations fitted to the heywood tables.” Powder Technology , 13 , pp. 291 – 293 .
  • Francis , A. , 1933 , “Wall effect in falling ball method for viscosity.” Physics , 4 , pp. 403 – 406 .
  • Gibbs , R. J. , Matthews , M. D. , and Link , D. A. , 1971 , “The relationship between sphere size and settling velocity.” Journal of Sedimentary Petrology , 41 , pp. 7 – 18 .
  • Gukhman , A. A. , 1965 , Introduction to the Theory of Similarity , New York : Academic Press.
  • Gunn , R. and Kinzer , G. D. , 1949 , “The terminal velocity of fall for water droplets in stagnant air.” Journal of Meteorology , 6 , pp. 243 – 248 .
  • Guo , J. , 2002 , “Logarithmic matching and its applications in computational hydraulics and sediment transport.” Journal of Hydraulic Research , 40 , pp. 555 – 565 .
  • Haider , A. and Levenspiel , O. , 1989 , “Drag coefficient and terminal velocity of spherical and nonspherical particles.” Powder Technology , 58 , pp. 63 – 70 .
  • Hartman , M. , Havlin , V. , Trnka , O. , and Carsky , M. , 1989 , “Predicting the free-fall velocities of spheres.” Chemical Engineering Science , 44 , 1743 – 1745.
  • Heywood , H. , 1938 , “Measurement of the fineness of powdered materials.” Proceedings, Institution of Mechanical Engineers , 140 , pp. 257 – 308 .
  • Heywood , H. , 1948 , “Calculation of particle terminal velocities.” Journal of Imperial College Chemical Engineering Society , 4 , pp. 17 – 29 .
  • Heywood , H. , 1962 , “Uniform and non-uniform motion of particles in fluids.” In Proceedings of the Symposium on the Interaction between Fluids and Particles, London: Institution of Chemical Engineers, pp. 1–8.
  • Ihme , F. , Schmidt-Traub , H. , and Brauer , H. , 1972 , “Theoretische untersuchung über die umströmung und den stoffübergang an kugeln.” Chemie Ingenieur Technik , 44 , pp. 306 – 313 .
  • Khan , A. R. and Richardson , J. F. , 1987, “The resistance to motion of a solid sphere in a fluid.” Chemical Engineering Communications , 62, pp. 135–150.
  • Kleeman , J. R. , 1975 , “Equations for terminal settling-velocities of spheres.” Chemical Engineering , 82 , pp. 102 – 102 .
  • Klinkenberg , A. and Mooy , H. H. , 1948 , “Dimensionless groups in fluid friction, heat, and material transfer.” Chemical Engineering Progress , 44 , pp. 17 – 34 .
  • Kürten , H. , Raasch , J. , and Rumpf , H. , 1966 , “Beschleunigung eines kugelförmigen feststoffteilchens im strömungsfeld konstanter geschwindigkeit.” Chemie Ingenieur Technik , 38 , pp. 941 – 948 .
  • Ladenburg , R. , 1907 , “Über den einfluß von wänden auf die bewegung einer kugel in einer reibenden flüssigkeit.” Annalen der Physik , 23 , pp. 447 – 458 .
  • Liebster , H. , 1927 , “Über den widerstand von kugeln.” Annalen der Physik , 82 , pp. 541 – 562 .
  • Liebster , H. and Schiller , L. , 1924 , “Cinematographic measurements of the downward motion of spheres in a viscous fluid and also in close proximity to a wall.” Physikalische Zeitschrift , 25 , pp. 670 – 672 .
  • Lindgren , E. R. , 1999 , “Motion of a sphere in an incompressible viscous fluid at reynolds numbers considerably less than one.” Physica Scripta , 60 , pp. 97 – 110 .
  • Lunnon , R. G. , 1928 , “Fluid resistance to moving spheres.” Proceedings of the Royal Society of London , 118 , pp. 680 – 694 .
  • Majumder , A. K. and Barnwal , J. P. , 2004 , “A computational method to predict particles free terminal settling velocity.” Journal of the Institution of Engineers (India) , 85 , pp. 17 – 19 .
  • Millikan , C. B. and Klein , A. L. , 1933 , “The effect of turbulence.” Aircraft Engineering , 5 , pp. 167 – 174 .
  • Möller , W. , 1938 , “Experimentelle untersuchungen zur hydrodynamik der kugel.” Physikalische Zeitschrift , 39 , pp. 57 – 80 .
  • Munroe , H. S. , 1888 , “The english versus the continental system of jigging – is close sizing advantageous?.” Transactions of the American Institute of Mining Engineers , 17 , pp. 637 – 659 .
  • Newton , I. , 1687 . Philosophiæ Naturalis Principia Mathematica, , 1st Ed ., London : Josephi Streater .
  • Newton , I. , 1714 . Philosophiæ Naturalis Principia Mathematica, , 2nd Ed. , Amsterdam .
  • Newton , I. , 1726 . Philosophiæ Naturalis Principia Mathematica . Translated by A. Motte, 1729 , New York : Daniel Adee .
  • Pettyjohn , E. S. and Christiansen , E. B. , 1948 , “Effect of particle shape on free-settling rates of isometric particles.” Chemical Engineering Progress , 44 , pp. 157 – 172 .
  • Pruppacher , H. R. and Beard , K. V. , 1970 , “A wind tunnel investigation of the internal circulation and shape of water drops falling at terminal velocity in air.” Quarterly journal of the Royal Meteorological Society , 96 , pp. 247 – 256 .
  • Ramkissoon , H. and Rahaman , K. , 2003 , “Wall effects on a spherical particle.” International Journal of Engineering Science , 41 , pp. 283 – 290 .
  • Reynolds , O. , 1883 , “An experimental investigation of the circumstances which determine whether the motion of water shall be direct or sinuous, and of the law of resistance in parallel channels.” Philosophical Transactions of the Royal Society of London , 174 , pp. 935 – 982 .
  • Roos , F. W. and Willmarth , W. W. , 1971 , “Some experimental results on sphere and disk drag.” American Institute of Aeronautics and Astronautics Journal (AIAA) , 9 , pp. 285 – 291 .
  • Schiller , L. and Naumann , A. , 1933 , “Über die grundlegenden berechnungen bei der schwerkraftaufbereitung.” Zeitschrift des Vereines Deutscher Ingenieure , 77 , pp. 318 – 320 .
  • Schmiedel , J. , 1928 , “Experimentelle untersuchungen über die fallbewegung von kugeln und scheiben in reibenden flüssigkeiten.” Physikalische Zeitschrift , 29 , pp. 593 – 610 .
  • Silvey , O. W. , 1916 , “The fall of mercury droplets in a viscous medium.” Physical Review , 7 , pp. 106 – 111 .
  • Smith , H. C. , 1992 , The Illustrated Guide to Aerodynamics, , 2nd Ed. , USA : McGraw-Hill, Inc .
  • Spilhaus , A. F. , 1948 , “Raindrop size, shape and falling speed.” Journal of Meteorology , 5 , pp. 108 – 110 .
  • Stokes , G. G. , 1851 , “On the effect of the internal friction of fluids on the motion of pendulums.” Transactions of the Cambridge Philosophical Society , 9 , pp. 8 – 106 .
  • Swamee , P. K. and Ojha , C. S. P. , 1991 , “Drag coefficient and fall velocity of nonspherical particles.” Journal of Hydraulic Engineering , 117 , pp. 660 – 667 .
  • Tanaka , Z. and Iinoya , K. , 1970 , “New approximate equation of drag coefficient for spherical particles.” Journal of Chemical Engineering of Japan , 3 , pp. 261 – 262 .
  • Turton , R. and Clark , N. N. , 1987 , “An explicit relationship to predict spherical particle terminal velocity.” Powder Technology , 53 , pp. 127 – 129 .
  • Turton , R. and Levenspiel , O. , 1986 , “A short note on the drag correlation for spheres.” Powder Technology , 47 , pp. 83 – 86 .
  • Vlajinac , M. and Covert , E. E. , 1972 , “Sting-free measurements of sphere drag in laminar flow.” Journal of Fluid Mechanics , 54 , pp. 385 – 392 .
  • Wadell , H. , 1934a , “Coefficient of resistance as a function of reynolds number for solids of various shapes.” Journal of the Franklin Institute , 217 , pp. 459 – 490 .
  • Wadell , H. , 1934b , “Some new sedimentation formulas.” Physics , 5 , pp. 281 – 291 .
  • Warg , J. B. , 1973 , “An analysis of methods for calculating constant terminal-settling velocities of spheres in liquids.” Mathematical Geology , 5 , pp. 59 – 72 .
  • Wieselsberger , C. , 1921 , “Neuere feststellungen uber die gesetze des flussigkeits- und luftwiderstandes.” Physikalische Zeitschrift , 22 , pp. 321 – 328 .
  • Wieselsberger , C. , 1922 , “Weitere festsellungen uber die gesetze des flussigkeits und luftwiderstandes.” Physikalische Zeitschrift , 23 , pp. 219 – 224 .
  • Zahm , A. F. , 1927 , Flow and Drag Formulas for Simple Quadratics , Washington , DC : National Advisory Committee for Aeronautics (NACA) .
  • Zigrang , D. and Sylvester , N. , 1981 , “An explicit equation for particle settling velocities in solid-liquid systems.” AIChE Journal , 27 , pp. 1043 – 1044 .

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