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煤灰形成及沉积模型研究进展 被引量:5

ADVANCEMENT OF STUDY ON FLY-ASH FORMATION AND DEPOSITION
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摘要 详细介绍了国外在飞灰形成及沉积模型方面开展的大量研究工作和最新进展 ,着重叙述了内在矿物和外在矿物的炉内行为、飞灰粒径和组成分布预测 ,比较了不同模型的预测效果。同时 ,简单介绍了国内的研究近况 。 The vast amount of research work and recently new advancement of modelling the fly-ash formation and deposition at abroad have been described in detail, emphasizing explanation of included and excluded minerals' behavior in the furnace, as well as prediction of particle size and composition of the fly-ash. The prediction results of different model have been compared. At the same time, the status of study on fly-ash deposition at home has been briefly presented, and some recommendations being put forward.
作者 兰泽全 曹欣玉 饶甦 赵显桥 程军 周俊虎 岑可法
机构地区 浙江大学
出处 《热力发电》 CAS 北大核心 2003年第10期32-37,共6页 Thermal Power Generation
关键词 燃煤锅炉 煤灰形成 沉积模型 预测
分类号 TK229.6 [动力工程及工程热物理—动力机械及工程] TK227.3 [动力工程及工程热物理—动力机械及工程]
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参考文献19

  • 1徐明厚,郑楚光,HE X G,AZEVEDO J L T,CARVALHO M G.煤灰沉积的传热过程模型及其数值研究[J].工程热物理学报,2002,23(1):115-118. 被引量:10
  • 2Wilemski, G , Srinivasachar, S and Sarofim, A F.Modeling of mineral matter redistribution and ash formation in pulverized coal combustion, in Inorganic Transformation and Ash Deposition During Combustion[M], ed.S A Benson, Engineering Foundation Press, ASME,New York, pp. 545 - 564(1992).
  • 3Wilemski, G and Srinivasachar, S. Prediction of ash formarion in pulverized coal combustion with mineral distribution and char fragmentation models, in The Impact of Ash Depo-sition on Coal Fired Plants[M], eds J Williamson and F Wigley, Taylor & Francis, pp. 151 - 164(1993).
  • 4Beer, J M , Sarofim,A F and Barta, L E. From coal mineral matter properties to fly ash deposition tendencies:a modeling route, in Inorganic Transformation and Ash Deposition During Combustion[M], ed. S.A. Benson,Engineering Foundation Press, ASME, New York, NY,pp. 71 - 94(1992).
  • 5Baxter LL, Yang NC, Hardesty DR. Task 3: he fate of mineral matter during pulverized coal combustion[R],Sandia Report No. SAND91 -8217. UC- ll3,Sandia National Laboratory, 1991.
  • 6Kramlich JC, Newton GH. Fuel Process Technol, 1994,37:143- 61.
  • 7Benfell KE, Bailey JG. Proceedings of AlE Eighth Australian Coal Science Conference 1998. p. 157 - 62.
  • 8Benson , S. A., Hurley, J. P. and Zygarlicke, C.J..Energy Fuels, 1993,7,746.
  • 9Gupta, R P , Truelove, J S , Wall, T F, Miyamae, S K and Hattori, C. Ash deposition on the burner walls of coal fired furnaces, in Inorganic Transformation and Ash Deposition During Combustion[M],eds S. A. Benson, Engineering Foundation Press,ASME, New York, NY, pp. 639- 658(1992).
  • 10Janaluddin, A S and Smith, P J. Predicting particulate deposition from turbulent streams, in Mineral Matter And Ash Deposition From Coal[M], eds R W Bryers and K S Vorres, Engineering Foundation Press, ASME, New York, NY, pp. 563-576(1992).

二级参考文献6

  • 1[1]Hottel H C, Sarofim A F. Radiative Transfer. New York:McGraw Hill, 1967
  • 2[2]Khalil E E. Modeling Furnaces and Combustors. USA:Abacus Press, 1982
  • 3[3]Hammersley J M, Handscomb D C. Monte Carlo Methods. New York: John Wiley & Sons Inc., 1964
  • 4[4]Lockwood F C, Shah N G. A New Radiation Solution Method Incorporation in General Combustion Prediction Procedures. In: Proc. of 18th Symposium (International)on Combustion. Pittsburgh: The Combustion Institute,1981. 1405-1414
  • 5[5]Ubhayakar S K, Stickler D B, Rosenberg C W V, et al.Rapid Devolatilization of Pulverized Coal in Hot Combustion Gases. In: Proc. of 16th Symposium (International)on Combustion. Pittsburgh: The Combustion Institute,1976. 427-436
  • 6[6]Kobayashi H, Howard J B, Sarofim A F. Coal Devolatilization at High Temperatures. In: Proc. of 16th Symposium (International) on Combustion. Pittsburgh:The Combustion Institute, 1976. 411-424

共引文献9

同被引文献43

引证文献5

二级引证文献28

热力发电
2003年 第10期

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