Gas Flow Regime in Vertical Tank for Sinter Waste Heat Recovery

doi:10.12068/j.issn.1005-3026.2016.04.014

Abstract

Abstract: The dimensionless method of Ergun’s equation was used to investigate the flow regime of the gas flow through the sinter bed layer. The effects of the gas superficial velocity， sinter particle diameter and the bed layer voidage on the gas pressure drop in the sinter bed layer were studied， and the change law of particle Reynolds number with the changing of particle diameter was also discussed. The results showed that the pressure drop per unit bed layer height in the sinter bed layer increased as a quadratic relationship with the increase of the gas superficial velocity for a given particle diameter. For a given gas superficial velocity， the pressure drop per unit bed layer height decreased as an exponential relationship with the increase of particle diameter and voidage. The critical particle Reynolds number in the sinter bed layer decreased as an exponential relationship with the increase of the bed layer geometrical factor， and the mean calculation deviation of the experimental prediction formula for critical particle Reynolds number was within 5%， showing a good prediction by using the method.

Key words: sinter, packed bed, pressure drop, flow regime, critical particle Reynolds number

CLC Number:

TK11⁺⁵

FENG Jun-sheng， DONG Hui， GAO Jian-ye， LIANG Kai. Gas Flow Regime in Vertical Tank for Sinter Waste Heat Recovery[J]. Journal of Northeastern University Natural Science, 2016, 37(4): 517-521.

References

[1]蔡九菊，王建军，陈春霞，等.钢铁工业余热资源的回收与利用［J］.钢铁，2007，42 (6):1-7.(Cai Jiu-ju，Wang Jian-jun，Chen Chun-xia，et al.Waste heat recovery and utilization in iron and steel industry［J］. Iron and Steel，2007，42 (6):1-7.)
[2]董辉，赵勇，蔡九菊，等.烧结-冷却系统漏风问题研究［J］.钢铁，2012，47(1):95-99.(Dong Hui，Zhao Yong，Cai Jiu-ju，et al.On the air leakage problem in sintering cooling system［J］. Iron and Steel，2012，47(1):95-99.)
[3]蔡九菊，董辉.烧结过程余热资源的竖罐式回收与利用方法及其装置:中国 200910187381.8 ［P］.2009-09-15.(Cai Jiu-ju，Dong Hui.The method and device of sintering waste heat recovery and utilization with vertical tank:China 200910187381.8 ［P］.2009-09-15.)
[4]董辉，李磊，蔡九菊，等.烧结矿余热竖罐式回收利用工艺流程［J］.中国冶金，2012，22(1):6-11.(Dong Hui，Li Lei，Cai Jiu-ju，et al.Process of waste heat recovery and utilization for sinter in vertical tank ［J］.China Metallurgy，2012，22(1):6-11.)
[5]Rode S，Midoux N，Latifi M A，et al.Hydrodynamics of liquid flow in packed beds:an experimental study using electrochemical shear rate sensors ［J］.Chemical Engineering Science，1994，49(6):889-900.
[6]Seguin D，Montillet A，Comiti J.Experimental characterization of flow regimes in various porous media—I:limit of laminar flow regime ［J］.Chemical Engineering Science，1998，53(21):3751-3761.
[7]Bu S S，Yang J，Dong Q T，et al.Experimental study of flow transitions in structured packed beds of spheres with electrochemical technique ［J］.Experimental Thermal and Fluid Science，2015，60:106-114.
[8]Bu S S，Yang J，Dong Q T，et al.Experimental study of transition flow in packed beds of spheres with different particle sizes based on electrochemical microelectrodes measurement ［J］.Applied Thermal Engineering，2014，73 (2):1525-1532.
[9]Fand R M，Kim B Y K，Lam A C C，et al.Resistance to the flow of fluids through simple and complex porous media whose matrices are composed of randomly packed spheres ［J］.Journal of Fluids Engineering，1987，109(3):268-273.
[10]Kececioglu I，Jiang Y X.Flow through porous media of packed spheres saturated with water ［J］.Journal of Fluids Engineering，1994，116(1):164-170.
[11]李振鹏，孙中宁，廖永浩.非达西流区微球床多孔介质阻力特性研究［J］.应用科技，2009，36(4):61-64.(Li Zhen-peng，Sun Zhong-ning，Liao Yong-hao.The research on the resistance characteristics of microsphere packed bed porous media in non-Darcy regime ［J］.Applied Science and Technology，2009，36(4):61-64.)
[12]Geldart D.Estimation of basic particle properties for use in fluid-particle process calculations ［J］.Powder Technology，1990，60 (1):1-13.

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