Criteria for Beverloo's scaling law

doi:10.1088/1674-1056/28/1/018101

Abstract

Beverloo's scaling law can describe the flow rate of grains discharging from hoppers. In this paper, we show that the Beverloo's scaling law is valid for varying material parameters. The flow rates from a hopper with different hopper and orifice sizes (D, D₀) are studied by running large-scale simulations. When the hopper size is fixed, the numerical results show that Beverloo's law is valid even if the orifice diameter is very large and then the criteria for this law are discussed. To eliminate the effect of walls, it is found that the criteria can be suggested as D-D₀ ≥ 40d or D/D₀ ≥ 2. Interestingly, it is found that there is still a scaling relation between the flow rate and orifice diameter if D/D₀ is fixed and less than 2. When the orifice diameter is close to the hopper size, the velocity field changes and the vertical velocities of grains above the free fall region are much larger. Then, the free fall arch assumption is invalid and Beverloo's law is inapplicable.

Keywords: Beverloo' s law orifice diameter hopper size discrete element method

Received: 27 September 2018
Revised: 27 October 2018
Accepted manuscript online:

PACS:

81.05.Rm

(Porous materials; granular materials)

Fund:

Project supported by the National Natural Science Foundation of China (Grant Nos. 11705256 and 11605264).

Corresponding Authors: Ping Lin
E-mail: pinglin@impcas.ac.cn

Cite this article:

Sheng Zhang(张晟), Ping Lin(林平), Guanghui Yang(杨光辉), Jiang-Feng Wan(万江锋), Yuan Tian(田园), Lei Yang(杨磊) Criteria for Beverloo's scaling law 2019 Chin. Phys. B 28 018101

[1]	de Gennes P G 1999 Rev. Mod. Phys. 71 S374
[2]	Wang Y J 2017 Chin. Phys. B 26 014503
[3]	Wang W G, Hou M Y, Chen K, Yu P D and Sperl M 2018 Chin. Phys. B 27 084501
[4]	Beverloo W A, Leniger H A and van de Velde J 1961 Chem. Eng. Sci. 15 260
[5]	Brown R L 1961 Nature 191 458
[6]	Nedderman R M, Tuzun U, Savage S B and Houlsby G T 1982 Chem. Eng. Sci. 37 1597
[7]	Hirshfeld D, Radzyner Y and Rapaport D C 1997 Phys. Rev. E 56 4404
[8]	Hilton J E and Cleary P W 2011 Phys. Rev. E 84 011307
[9]	Janda A, Zuriguel I and Maza D 2012 Phys. Rev. Lett. 108 248001
[10]	Bertho Y, Giorgiutti-Dauphine F and Hulin J P 2003 Phys. Rev. Lett. 90 144301
[11]	An, A, Curtis J S, Wassgren C R, Hancock B C and Ketterhagen W R 2008 Chem. Eng. Sci. 63 5821
[12]	Staron L, Lagree P Y and Popinet S 2012 Phys. Fluids 24 103301
[13]	Zhang S, Lin P, Wang C L, Tian Y, Wan J F and Yang L 2014 Granul. Matter 16 857
[14]	Hirshfeld D and Rapaport D 2001 Eur. Phys. J. E 4 193
[15]	Mankoc C, Janda A, Arévalo R, Pastor J M, Zuriguel I, Garcimartín A and Maza D 2007 Granul. Matter 9 407
[16]	Balevicius R, Sielamowicz I, Mroz Z and Kacianauskas R 2011 Powder Technol. 214 322
[17]	Oldal I, Keppler I, Csizmadia B and Fenyvesi L 2012 Adv. Powder Technol. 23 290
[18]	Lin P, Zhang S, Qi J, Xing Y M and Yang L 2015 Physica A 417 29
[19]	Rubio-Largo S M, Janda A, Maza D, Zuriguel I and Hidalgo R C 2015 Phys. Rev. Lett. 114 238002
[20]	Vivanco F, Rica S and Melo F 2012 Granul. Matter 14 563
[21]	Saraf S and Franklin S V 2011 Phys. Rev. E 83 030301
[22]	Tian Y, Lai J, Yang L, Qi J and Zhou Q Awareness Science and Technology and Ubi-Media Computing (iCAST-UMEDIA), 2013 International Joint Conference on, pp. 547-552
[23]	Qi J, Li K C, Jiang H, Zhou Q and Yang L 2015 International Journal of Computer Science and Engineering, Inderscience 11 330
[24]	Johnson K L 1987 Contact Mechanics (London: Cambridge University Press)
[25]	Cundall P A and Strack O D L 1980 Geotechnique 30 331
[26]	Allen M P and Tildesley D J 1989 Computer Simulation of Liquids (Oxford: Oxford University Press)
[27]	Unac R O, Vidales A M, Benegas O A and Ippolito I 2012 Powder Technol. 225 214
[28]	Brown R L and Richards B 1960 Transaction Institution Chem. Eng. 38 243
[29]	Nedderman R M 2005 Statics and Kinematics of Granular Materials (Cambridge: Cambridge University Press)
[30]	Tian Y, Lin P, Zhang S, Wang C, Wan J and Yang L 2015 Advanced Powder Technol. 26 1191
[31]	Rycroft C H, Grest G S, Landry J W and Bazant M Z 2006 Phys. Rev. E 74 021306
[32]	Munson B R, Young D F, Okiishi T H and Huebsch W W 2010 Fundamentals of Fluid Mechanics (Wiley)
[33]	Drescher A 1992 Powder Technol. 73 251

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