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Drying Technology
An International Journal
Volume 33, 2015 - Issue 6
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Original Articles

Mathematical Model Based on DSMC Method for Particulate Drying in a Coaxial Impinging Stream Dryer

Min DuSchool of Energy and Power Engineering, Jiangsu University, Zhenjiang, ChinaCorrespondence[email protected]
,
Jun GongSchool of Energy and Power Engineering, Jiangsu University, Zhenjiang, China
,
Wei ChenSchool of Energy and Power Engineering, Jiangsu University, Zhenjiang, China
&
Qian WangSchool of Energy and Power Engineering, Jiangsu University, Zhenjiang, China
Pages 646-658 | Published online: 18 Feb 2015

REFERENCES

  • Liu, X.D.; Ding, X.M.; Wang, X.Z.; Pan, Y.K.; Cao, C.W.; Liu, D.Y. Drying research and development in china. Drying Technology 2004, 22(1), 123–144.
  • Lee, D.J.; Jangam, S.; Mujumdar, A.S. Some recent advances in drying technologies to produce particulate solids. KONA Powder and Particle Journal 2013, 30, 69–83.
  • Wu, Y. Impinging Streams: Fundamentals, Properties, and Applications; Elsevier: Amsterdam, 2007.
  • Supakumnerd, K.; Sathapornprasath, K. A review of the impinging stream dryer. SWU Engineering Journal 2013, 8(1), 16–23.
  • Icardi, M.; Gavi, E.; Marchisio, D.L.; Olsen, M.G.; Fox, R.O.; Lakehal, D. Validation of LES predictions for turbulent flow in a confined impinging jets reactor. Applied Mathematical Modelling 2011, 35(4), 1591–1602.
  • Elperin, I. Transport Process in Opposing Jets; Science and Technology Press: Minsk, 1972 (in Russian).
  • Elperin, I.T. Heat and mass transfer in opposing currents. J Engng Physics 1961, 6, 62–68.
  • Tamir, A. Impinging Stream Reactors: Fundamental and Application; Elsevier Science: Amsterdam, 1994.
  • Nimmol, C.; Devahastin, S. Evaluation of performance and energy consumption of an impinging stream dryer for paddy. Applied Thermal Engineering 2010, 30(14–15), 2204–2212.
  • Zhang, T.; Du, M.; Zhou, B.; Shen, L.H.; Hao, Y.L. Experimental study on coaxial gas-solid two impinging stream drying. Journal of Engineering Thermophysics 2011, 32(11), 1910–1912.
  • Du, M.; Zhou, B. Study of the mechanism governing the intensified heat and mass transfer in a gas-solid two-phase impingement flow. Journal of Engineering for Thermal Energy and Power 2013, 28(5), 482–486.
  • Hosseinalipour, S.M.; Mujumdar, A.S. Superheated steam drying of a single particle in an impinging stream dryer. Drying Technology 1995, 13(5–7), 1279–1303.
  • Rahimi, A.; Niksiar, A. Mathematical modeling and simulation of drying of a single wet particle in a coaxial impinging stream dryer. Chemical Engineering Communications 2010, 197(5), 692–708.
  • Choicharoen, K.; Devahastin, S.; Soponronnarit, S. Numerical simulation of multiphase transport phenomena during impinging stream drying of a particulate material. Drying Technology 2012, 30(11–12), 1227–1237.
  • Yahyaee, A.; Esmailpour, K.; Hosseinalipour, M.; Mujumdar, A.S. Simulation of drying characteristics of evaporation from a wet particle in a turbulent pulsed opposing jet contactor. Drying Technology 2013, 31(16), 1994–2006.
  • Du, M.; Zhao, C.; Zhou, B.; Guo, H.; Hao, Y. A modified DSMC method for simulating gas-particle two-phase impinging streams. Chemical Engineering Science 2011, 66(20), 4922–4931.
  • Tsuji, Y.; Tanaka, T.; Yonemura, S. Cluster patterns in circulating fluidized beds predicted by numerical simulation (discrete particle model versus two-fluid model). Powder Technology 1998, 95(3), 254–264.
  • Lu, H.L.; Shen, Z.H.; Ding, J.M.; Li, X.; Liu, H.P. Numerical simulation of bubble and particles motions in a bubbling fluidized bed using direct simulation Monte-Carlo method. Powder Technology 2006, 169(3), 159–171.
  • Du, M.; Hao, Y.L.; Liu, X.D. Application of DSMC method in large-scale gas-solid two-phase impinging streams. Journal of Chemical Industry and Engineering 2009, 60(8), 1950–1958.
  • Du, M.; Hao, Y.L. Theoretical model study on inter-phase heat and mass transfer in impinging streams. Journal of Engineering Thermophysics 2010, 31(6), 1037–1040.
  • Du, M.; Hao, Y.l.; Zhang, T.; Zhou, B.; Guo, H.W. Theoretical model study on impact heat transfer between particles in impinging streams. Journal of Engineering Thermophysics 2012, 33(2), 319–322.
  • Tao, W. Numerical Heat Transfer, 2nd ed.; Xi'an Jiaotong University Press: Xi'an, 2001.
  • Illner, R.; Neunzert, H. On simulation methods for the Boltzmann equation. Transport Theory and Statistical Physics 1987, 16(2–3), 141–154.
  • Timoshenko, S.; Goodier, J. Theory of Elasticity; McGraw-Hill: New York, 1951.
  • Johnson, K. Contact Mechanics; Cambridge University Press: Cambridge, 1987.
  • Sun, J.; Chen, M. A theoretical analysis of heat transfer due to particle impact. International Journal of Heat and Mass Transfer 1988, 31(5), 969–975.
  • Lakatos, B.G.; Sule, Z.; Mihalyko, C. Population balance model of heat transfer in gas-solid particulate systems. International Journal of Heat and Mass Transfer 2008, 51(7–8), 1633–1645.
  • Sathapornprasath, K.; Devahastin, S.; Soponronnarit, S. Performance evaluation of an impinging stream dryer for particulate materials. Drying Technology 2007, 25(6), 1121–1128.

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