Combustion Experimental Study on Spouted Bed for Daqing Oil Shale Semi-Coke

Qing Wang; Xiang Zhao Kong; Hong Peng Liu; Guan Hua Xiao

doi:10.4028/www.scientific.net/AMR.614-615.95

Paper Titles

Numerical Study on the Premixed Combustion in Porous Media Burner
p.73

Numerical Simulation of Condenser Throat Combining with Low-Pressure Exhaust Hood for 600MW Thermal Power Unit
p.77

The Exhaust Steam Enthalpy of Steam Turbine Cognitive Modeling Based on Simplify Evidential Regression Multi-Model
p.83

The Research on Malfunction Diagnosis of Thermal Power System of Steam Turbine Based on Structure Theory
p.89

Combustion Experimental Study on Spouted Bed for Daqing Oil Shale Semi-Coke
p.95

Numerical Simulation of the Last Stage in the Nuclear Half-Speed Turbine
p.99

Study on Co-Combustion of Oil Shale Semi-Coke and Corn Stalk
p.103

Co-Combustion Characteristics of Oil Shale Semi-Coke and Corn Stalk
p.107

Pyrolysis Characteristics of Oil Sands
p.111

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 614-615Combustion Experimental Study on Spouted Bed for...

Combustion Experimental Study on Spouted Bed for Daqing Oil Shale Semi-Coke

Abstract:

Daqing oil shale semi-coke combustion experiment has been performed through the Spouted bed experimental device for obtaining the temperature distribution, temperature and carbon content of separation materials. This paper presented the experimental study that the effect of three factors, containing screening particle size, wind speed and feeding flux, on the temperature variation of spouted bed and separation materials, and the carbon content in separation materials under different operating conditions. The experimental results show that the screening particle size and wind speed had great influence on the temperature of separation materials, while the carbon content is inversely proportional to the temperature of separation materials. This research further understands the combustion characteristic of Daqing oil shale semi-coke in spouted bed, establishing the foundation for the solid heat carrier retort in rotating retorting.

You might also be interested in these eBooks

Advances in Power and Electrical Engineering

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 614-615)

Pages:

95-98

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.614-615.95

Citation:

Cite this paper

Online since:

December 2012

Authors:

Qing Wang, Xiang Zhao Kong, Hong Peng Liu, Guan Hua Xiao

Keywords:

Combustion, Oil Shale Semi-Coke, Spouted Bed

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] J.L. Qian, L. Yin: Oil Shale-the Supplement Energy of Petroleum, edtied by China Petrochemical, BJ (2008), in press (In Chinese)

Google Scholar

[2] K. Brendow: J. Oil Shale, Vol. 20 (2003), p.81

Google Scholar

[3] X. Ji, X.L. Xi, J.L. Qian, L. Li: J. Energy of China. Vol. 26 (2004), p.16 (In Chinese)

Google Scholar

[4] G.Q. Shi: J. Journal of Jilin University (Earth Science Edition). Vol. 36 (2006), p.888 (In Chinese)

Google Scholar

[5] G.A. Lefroy and J.F. Davidson: J. Transactions of the Institution of Chemical Engineers. Vol. 47 (1969), p.120

Google Scholar

[6] N. Epsteinan and K.B. Mathur: Spouted Beds, edtied by New York, (1974), in press

Google Scholar

[7] H.A. Arbib and A. Levy: J. Canadian Journal of Chemical Engineering. Vol. 60 (1982), p.528

Google Scholar

[8] K.B. Mathur and N. Epstein: J. Canadian Journal of Chemical Engineering. Vol. 52 (1974), p.129

Google Scholar

[9] J.X. Zhu, J. Hong: J. Chemical Reaction Engineering and Technology. Vol. 13 (1997), p.207 (In Chinese)

Google Scholar

[10] K.B. Mathur and N. Epsteina: J. Advances in Chemical Engineering. Vol. 9 (1974), p.111

Google Scholar

[11] C.J. Lim, A.P. Watkinson, G.K. Khoe, S. Low, N. Epstein and J.R. Grace: J. Fuels. Vol. 67 (1988), p.1211

Google Scholar

[12] Y. Jin, J.X. Zhu, Z.W. Wang, Z.Q. Yu: Fluidization Engineering Principles, edtied by Tsinghua University, BJ (2001), in press (In Chinese)

Google Scholar