Advances Research on Identification Method of Fluidized Bed Flow Pattern

Tao Zeng; Shao Bei Liu; Wei Yang

doi:10.4028/www.scientific.net/AMR.581-582.37

Paper Titles

Chemical Composition of the Essential Oil of Fresh Wild Syringa pubescens Flowers from China
p.15

Chemical Reaction and Fluid Flow in a Carbon Monoxide Boiler(II) Chemical Reaction Analysis
p.19

A Continuous Process for the Preparation of Pyridine from Tetrahydrofurfuryl Alcohol with (MoO₃-NiO) / Al₂O₃ as Catalyst
p.27

Adsorption of Methyl Orange from Solution by IOCZ in Batch Mode: Equilibrium Study
p.33

Advances Research on Identification Method of Fluidized Bed Flow Pattern
p.37

Analytical Heterogeneous Extended Langmuir Model: Effect of Unilan Parameters
p.41

Analytical Method of Gliotoxin Content by HPLC
p.46

Applicability of Emulsion Viscosity Models to Crude Oil Emulsion
p.50

Concentration of DHA and EPA from Marine Fish Oil by Urea Complexation
p.54

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 581-582Advances Research on Identification Method of...

Advances Research on Identification Method of Fluidized Bed Flow Pattern

Abstract:

The progress of identification method of flow pattern is introduced, for gas-solid fluidized bed an example. These methods are not only able to identify the flow pattern, but also able to analyze the characteristics of every flow pattern and mechanism in transition. Furthermore the application of every method and the future work are presented.

You might also be interested in these eBooks

Frontiers of Materials, Chemical and Metallurgical Technologies

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 581-582)

Pages:

37-40

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.581-582.37

Citation:

Cite this paper

Online since:

October 2012

Authors:

Tao Zeng, Shao Bei Liu, Wei Yang

Keywords:

Flow Pattern Transition, Fluidization, Identification Method, Progress

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Baiding Rong Jin Yong, The circulating fluidization, Chemical reaction engineering and technology [J], 1991,7 (2) :202 – 206.

Google Scholar

[2] Kehoe P W K, and Davidson J F. Continuously slugging fluidized beds. Chemeca'70, Institution of Chemical Engineer Symposium Series, Australia : Butterworths,1970,vol. 33: 97-116.

Google Scholar

[3] Yerushalmi J, and Cankurt N T. Further studies of the regimes of fluidization. Powder Technology,1979,24:187-205.

DOI: 10.1016/0032-5910(79)87036-9

Google Scholar

[4] Guo Mu Sun, LI Hong-zhong. Handbook of fluidization [M]. Beijing, The chemical industry publishing, 2008.

Google Scholar

[5] Wang S.J and Dyakowski, T. et al. Real Time Capacitance Imaging of Bubble Formation at the Distribution of a Fluidized bed. The Chemical Engineering Journal [J], 1995,56 : 95～100.

DOI: 10.1016/0923-0467(94)02916-4

Google Scholar

[6] Huang Zhiyao, Appliction of the computerised tomography to the measurement of multiphase flow, Chemical Reaction Engineering and Technology[J] ,1996, 12(4):395-405.

Google Scholar

[7] LU huilin, Liu Weitie. Experiment research and numerical simulation of Dense gas-solid turbulent flow, Acta Mechanica Sinica [J], 2000, 32(4): 385-391.

Google Scholar

[8] JI Hai feng, et al. Analysis of Pressure Fluctuation Signal of Gas-Solid Fluidized Bed Based on Wavelets Transform,Journal of Chemical Engineering of Chinese Universities [J]

Google Scholar

[9] Zhou YunLong, He QiangYong. Analysis on multi-fractal of pressure fluctuation signal of gas-solid fluidized Bed.Porcess Automation Instrumentation [J]. 2010, 31(7) : 5-11.

Google Scholar

[10] Ling Ping, Wang Xiaoping, et al. Application of information transmission matrix influidized regimes identification of gas-solid fluidized bed [J]. Chinese Journal of Scientific Instrument 2002,23(3): 900-901.

Google Scholar

[11] Zhou Y L, Fan Z R. Identification method of fluidized beds gas-solid two phase flow regime based on images processing and genetic neural Network [C]. 6th International symposium on Multiphase Flow, Heat Mass Transfer and Energy Conversion, Xi an, 2009.

DOI: 10.1063/1.3366415

Google Scholar