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Particulate Science and Technology
An International Journal
Volume 33, 2015 - Issue 4
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Original Articles

Transition Criteria for Fluidized Beds Revisited

Naval KoralkarDepartment of Energy Science and Engineering, IIT Bombay, Mumbai, India
,
Gopee KottakotaDepartment of Chemical Engineering, IIT Bombay, Mumbai, India
&
Manaswita BoseDepartment of Energy Science and Engineering, IIT Bombay, Mumbai, IndiaCorrespondence[email protected]
Pages 393-405 | Published online: 29 Jul 2015

References

  • Anderson, T. B., and R. Jackson. 1967. A fluid mechanical description of fluidized beds: equation of motion. Industrial and Engineering Chemistry Fundamentals 6(4):527–538.
  • Anderson, T. B., and R. Jackson. 1969. A fluid mechanical description of fluidized bed: comparison of theory and experiment. Industrial and Engineering Chemistry Fundamentals 8(1):137–144.
  • Ahuja, G. N., and A. W. Patwardhan. 2008. CFD and experimental studies of solids hold-up distribution and circulation patterns in gas–solid fluidized beds. Chemical Engineering Journal 143:147–160.
  • Asegehegn, T. W., M. Schreiber, and H. J. Krautz. 2011. Numerical simulation and experimental validation of bubble behavior in 2D gas–solid fluidized beds with immersed horizontal tubes. Chemical Engineering Science 66:5410–5427.
  • Babaei, B., R. Zarghami, H. Sedighikamal, R. Sotudeh-Gharebagh, and N. Mostoufi. 2012. Investigating the hydrodynamics of gas-solid bubbling fluidization using recurrence plot. Advanced Powder Technology 23:380–386.
  • Batchelor, G. 1988. A new theory of the instability of a uniform fluidized bed. Journal of Fluid Mechanics 193:75–110.
  • Busciglio, A., G. Vella, and G. Micale. 2012. On the bubbling dynamics of binary mixtures of powders in 2D gas solid fluidized beds. Powder Technology 231:21–34.
  • Cody, G. D., J. Johari, and D. Goldfarb. 2008. Dependence of particle fluctuation velocity on gas flow, and particle diameter in gas fluidized beds for monodispersed spheres in the Geldart B and A fluidization regimes. Powder Technology 182:146–170.
  • Corona, A., Z. Roberto, and M. Olivier. 2011. Collisions in a liquid fluidized bed. International Journal of Multiphase Flow 37(7):695–705.
  • Deen, N., M. V. S. Annaland, and J. Kuipers. 2006. Detailed computational and experimental fluid dynamics of fluidized beds. Applied Mathematical Modelling 30(11):1459–1471.
  • Didwani, A. K., and G. M. Homsy. 1981. Flow regimes and flow transition in liquid fluidized beds. International Journal of Multiphase Flow 7(6):563–580.
  • Doichev, K., S. Todorov, and V. Dimitrov. 1975. Transition between particulate and aggregative fluidization at different state of flow of the solids. Chemical Engineering Science 30:419–424.
  • Duru, P., and E. Guazzelli. 2002. Experimental investigation on the secondary instability of liquid fluidized beds and the formation of the bubbles. Journal of Fluid Mechanics 470:359–382.
  • El-Kaissy, M. M., and G. M. Homsy. 1976. Instability waves and the origin of bubbles in fluidized beds part-I experiments. International Journal of Multiphase Flow 2:379–395.
  • Foscolo, P., and L. Gibilaro. 1984. A fully predictive criterion for the transition between particulate and aggregative fluidization. Chemical Engineering Science 39(12):1667–1675.
  • Garg, S. K., and J. W. Pritchett. 1975. Dynamics of gas-fluidized beds. Journal of Applied Physics 46:4493–4500.
  • Garside, J., and M. Al-Dibouni. 1977. Velocity-voidage relationships for fluidization and sedimentation in solid liquid systems. Industrial and Engineering Chemistry, Process Design and Development 16:206–214.
  • Girimonte, R., and B. Formisani. 2009. The minimum bubbling velocity of fluidized beds operating at high temperature. Powder Technology 189(1):74–81.
  • Grace, J. R. 1986. Contacting modes and behaviour classification of gas-solid and other two-phase suspensions. The Canadian Journal of Chemical Engineering 64:353–363.
  • Gupta, C. K., and D. Sathiyamoorthy. 1999. Fluidized Bed Technology in Materials Processing. Boca Raton, FL: CRC Press.
  • Ham, J. M., S. Thomas, E. Guazzelli, G. M. Homsy, and M. C. Anselmet. 1990. An experiment study of the stability of liquid fluidized beds. International Journal of Multiphase Flow 16(2):171–185.
  • Han, Y., J. J. Wang, X. P. Gu, L. F. Feng, and G. H. Hu. 2012. Homogeneous fluidization of Geldart D particles in a gas−solid fluidized bed with a frame impeller. Industrial and Engineering Chemistry Research 51:16482–16487.
  • Iborra, A. A., C. Sobrino, F. H. Jime, and M. DeVega. 2011. Experimental and computational study on the bubble behavior in a 3-D fluidized bed. Chemical Engineering Science 66:3499–3512.
  • Jackson, R. 1963. The mechanics of fluidized beds. Transactions of the Institution of Chemical Engineers 41:13–28.
  • Jackson, R. 2000. Dynamics of Fluidized Particles. Cambridge: Cambridge University Press.
  • Johari, A., and M. Rozainee. 2007. Effect of sand sizes on the fluidization behaviour in circular and rectangular columns. Journal of Chemical and Natural Resource Engineering 2:14–21.
  • Khan, A., and J. Richardson. 1989. Fluid-particle interactions and flow characteristics of fluidized beds and settling suspensions of spherical particles. Chemical Engineering Communications 78:111–130.
  • Kunni, D., and O. Levespeil. 1991. Fluidization Engineering. Butterworth-Heinemann: Elsevier.
  • Laverman, J., X. Fan, A. Ingram, M. van Sint Annaland, D. Parker, J. Seville, and J. Kuipers. 2012. Experimental study on the influence of bed material on the scaling of solid circulation patterns in 3D bubbling gas solid fluidized beds of glass and polyethylene using positron emission particle tracking. Particuology 224:297–305.
  • Lim, K. S., P. K. Agarwal. 1994. Circulatory motion of a large and lighter sphere in a bubbling fluidized bed of smaller and heavier particles. Chemical Engineering Science 49(3):421–424.
  • Lim, K. S., P. K. Agarwal, and B. K. O'Neill. 1990. Measurement and modelling of bubble parameters in a two-dimensional gas-fluidized bed using image analysis. Powder Technology 60:159–171.
  • Limtrakul, S., J. Chen, P. A. Ramchandran, and M. P. Dudukovic. 2005. Solids motion and holdup profiles in liquid fluidized beds. Chemical Engineering Science 60:1889–1900.
  • Loha, C., H. Chattopadhyay, and P. K. Chatterjee. 2012. Assessment of drag models in simulating bubbling fluidized bed hydrodynamics. Chemical Engineering Science 75:400–407.
  • Lyczkowski, R. W., I. K. Gamwo, F. Dobran, Y. H. Ai, B. T. Chao, M. M. Chen, and D. Gidaspow. 1993. Validation of computed solids hydrodynamics and pressure oscillations in a bubbling atmospheric fluidized bed. Powder Technology 76:65–77.
  • Nicolas, M., J. M. Chomaz, D. Vallet, and E. Guazzelli. 1996. Experimental investigations on the nature of the first wavy instability in liquid-fluidized beds. Physics of Fluids 8(8):1987–1989.
  • Pigford, R. L., and T. Baron. 1965. Hydrodynamic stability of fluidized bed. Industrial and Engineering Chemistry Fundamentals 4(1):81–87.
  • Reddy, R. K., and J. B. Joshi. 2009. CFD modeling of solid–liquid fluidized beds of mono and binary particle mixtures. Chemical Engineering Science 64:3641–3658.
  • Richardson, J. F., and W. N. Zaki. 1954. Sedimentation and fluidization, part I. Transactions of the Institution of Chemical Engineers 32:35–53.
  • Sanaei, S., N. Moustoufi, R. Radmanesh, G. R. Sotudeh, C. Guy, and J. Chaouki. 2010. Hydrodynamics characteristics of gas solid fluidization at high temperature. The Canadian Journal of Chemical Engineering 88(1):1–11.
  • Shaul, S., E. Rabinovich, and H. Kalman. 2012. Generalized flow regime diagram of fluidized beds based on the height to bed diameter ratio. Powder Technology 228:264–271.
  • Shen, L., F. Johnsson, B. Leckner. 2004. Digital image analysis of hydrodynamics two dimensional bubbling fluidized beds. Chemical Engineering Science 59:2607–2617.
  • Sundaresan, S. 2003. Instabilities in fluidized beds. Annual Review of Fluid Mechanics 35:63–88.
  • Syamlal, M., W. Rogers, and T. J. O'Brien. 1993. MFIX documentation theory guide, US Dept of Energy, Technical Note DOE/METC-94/1004. http://www.mfix.netl.gov.
  • Taghipour, F., N. Ellis, and C. Wong. 2005. Experimental and computational study of gas solid fluidized bed hydrodynamics. Chemical Engineering Science 60:6857–6867.
  • van Wachem, B. G. M., J. C. Schouten, R. Krishna, and C. M. van den Bleek. 1999. Validation of the Eulerian simulated behaviour of gas solid fluidized beds. Chemical Engineering Science 54(13–14):2141–2149.
  • Verloop, J., and P. Heertjes. 1970. Shock waves as a criterion for the transition from homogeneous to heterogeneous fluidization. Chemical Engineering Science 25(5):825–832.
  • Wang, S., S. Guo, J. Gao, X. Lan, Q. Dong, X. Li. 2012. Simulation of flow behavior of liquid and particles in a liquid–solid fluidized bed. Powder Technology 224:365–373.
  • Weber, J. M., and J. S. Mei. 2013. Bubbling fluidized bed characterization using Electrical Capacitance Volume Tomography (ECVT). Powder Technology 242:40–50.
  • Wilhelm, R., and M. Kwauk. 1948. Fluidization of solid nonvesicular particles. Chemical Engineering Progress 44:201–207.
  • Yurong, H., L. Huilin, S. Qiaoqun, Y. Lidan, Z. Yunhua, D. Gidaspow, and J. Bouillard. 2004. Hydrodynamics of gas–solid flow around immersed tubes in bubbling fluidized beds. Powder Technology 145:88–105.
  • Zhong, W. Q., B. S. Jin, Y. Zhang, X. F. Wang, M. Y. Zhang, and R. Xiao. 2009. Shannon entropy increment analysis on dynamic behavior of a biomass fluidized bed. Journal of Physics: Conference Series 147:012071.

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