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Received June 27, 2008
Accepted March 1, 2009
- This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Study on flow fields of centrally fuel rich swirl burner and its applications
1School of Energy Science and Engineering, Harbin Institute of Technology, Harbin 150001, P. R. China 2Postdoctoral Station of Civil Engineering, Harbin Institute of Technology, Harbin 150090, P. R. China
chenzc@hit.edu.cn
Korean Journal of Chemical Engineering, September 2009, 26(5), 1186-1193(8), 10.1007/s11814-009-0216-5
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Abstract
Experiments on a single-phase test facility were done to optimize primary air outlet cones of a centrally fuel rich swirl coal combustion burner. On the basis of optimized results from the single-phase test, a three-component particle-dynamics anemometer was used to measure, in the near-burner region, the characteristics of gas/particle two-phase flows for the burner with two primary air outlet cones, on a gas/particle two-phase test facility. Velocities, RMS velocities and particle volume flux profiles were obtained. According to the results, the primary air outlet cone_x000D_
structure of the centrally fuel rich burner was matching a 670 ton per hour boiler. The performance of the burner on a 670 ton per hour boiler was studied.
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Chen ZC, Li ZQ, Wang FQ, Jing JP, Chen LZ, Wu SH, Fuel, 87, 2102 (2008)
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Lin ZC, Fan WD, Li YY, Li YH, Zhang MC
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Li ZQ, Sun R, Wan ZX, Sun SZ, Wu SH, Chen LZ, Combust. Sci. Technol., 175(11), 1979 (2003)
Zhou LX, Li Y, Chen T, Xu Y, Powder Technol., 112(1-2), 79 (2000)
Weber R, Proceedings of the 26th international symposium on combustion, 2, 3343 (1996)
Shin D, Park S, Jeon B, Yu T, Hwang J, J. Mech. Sci. Technol., 20, 2310 (2006)
Pickett TM, Jackson RE, Tree DR, Combust. Sci. Technol., 143(1-6), 79 (1999)
Aisa L, Garcia JA, Cerecedo LM, Garcia PI, Calvo E, Int. J. Multiphase Flow, 28, 301 (2002)
Moon S, Bae C, Choi J, Abo-Serie E, Fuel, 86, 400 (2007)
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Sommerfeld M, Qiu HH, Int. J. Heat and Fluid Flow, 12, 20 (1991)
Weber R, Visser BM, Bousan F, Int. J. Heat and Fluid Flow, 11, 225 (1990)