旋风分离器参考文献.doc

参考文献1金国淼等.除尘设备M.北京:化学工业出版社,2002:1-3002Louis E. Stein, Alex. C. Hoffmann.旋风分离器-原理、设计和工程应用 M.北京,化学工业出版社,2004:1-783国家环保局标准处.中华人民共和国国家标准环境空气质量标准J,油气田环境保护,1996(04 )4姚玉英,黄凤廉,陈常贵等.化工原理M.天津:天津大学出版社,1999:1385舒帆.影响旋风除尘器除尘效率的因素分析J,粮食加工.2008, 33 (3):73-756韩占忠,王敬,兰小平.FLUENT流体工程仿真计算实例与应用M.北京：北京理工大学出版社,2004:207魏志军,张平.旋风分离器气相流场的数值模拟J.北京理工大学学报.2000, 20 (5):19-218嵇鹰,张红波,田耀鹏等.进口位置对旋风分离器特性影响的数值模拟J.金属矿山,2008, 387 (3):127-1299岑可法,倪明江,骆仲泱等.循环流化床锅炉理论设计与运行M.北京:中国电力出版社, 2002:511-54010陈明绍，吴光兴，张大中等.除尘技术的基本原理与应用M.北京：中国建筑工业出版社，1981:333-51811钱付平,章名耀.基于边界层理论旋风分离器分离效率的改进模型J,中国电机工程学报.2007, 27 (5):71-7412Hoffmann A C, Stein L E. Gas cyclones and twirl tubes：principles，design and operation M. Springer-Verlag，Berlin，Heidelberg，2002，16913Leith D, Licth W. The collection efficiency of cyclone type particle collector. A new theoretical approachJ. AIChE Symp Series,1972，126 (68)：196-20614Obermair S，Woisetschlager J，Staudinger GInvestigation of the flow pattern in different dust outlet geometries of a gas cyclone by laser Doppler anemometryJ.Powder Technology，2003，2-3 (138):239-25115Zhao BingtaoDevelopment of a new method for evaluating cyclone efficiencyJ.Chem. Eng. Process,2005, 1 (44):447-45116金有海,时铭显.旋风分离器分离性能计算模型分析J.石油大学学报(自然科学版),1991, 2 (15):81-91.17王立新,李会平.多效旋风分离器P.中国专利：公开号CN01391239.2009-3-25.18BOYSAN F, AYER WH, SWITHENBANK J A, “Fundamental mathematical-modeling approach to cyclone design”, Transaction of Institute Chemical Engineers, 1982, (60): 222-230.19HOEKSTRA A.J., DERKSEN J.J., H.E.A. VAN DEN AKKER “An experimental and numerical study of turbulent swirling flow in gas cyclones”, Chemical Engineering Science 1999 (54) :2055-2056.20PANT K., CROWE C.T., IRVING P., “On the design of miniature cyclone for the collection of bioaerosols”, Powder Technology 2002 ,(125) 260-26521SOMMERFELD M., HO C. H., “Numerical calculation of particle transport in turbulent wall bounded flows”, Powder Technology 2003 (131) 1-6.22LOTH E., “Numerical approaches for motion of dispersed particles, droplets and bubbles”, Progress in Energy and Combustion Science,2000 (26) 161-223.23 YUU S., YASUKOUCHI N., HIROSAWA, “Particle turbulent diffusion in a dust laden round jet”, AIChE Journal,1978 (24), 509-519.24GOSMAN A.D. and IOANNIDES E., “Aspects of computer simulation of liquid-fuelled combustors”.AIAA 19th Aerospace Science Mtg., St. Louis, Mo, 1981(81-0323)25STURGESS G.J., SYED S.A., “Calculation of a hollow-cone liquid spray in uniform airstream”. Journal of Propulsion and Power, 1985, (1): 360-369.26MOSTAFA A.A., MONGIA H.C., MCDONELL, V.G. and SAMUELSEN, G.S., “Evolution of particle-laden jet flows: a theoretical and experimental study”, AIAA Journal, 1989 (27):167-183.27SOMMERFELD.M. KOHNEN.G and RUGER M. “Some open questions and inconsistencies of Lagrangian particle dispersion models”, Proc. Ninth Symp. on Turbulent Shear Flows, Kyoto, Japan, Paper 199328LITCHFORD R.J. and JENG SM. “Efficient statistical transport model for turbulent particle dispersion in sprays”. AIAA Journal 1991 (29):1443-1451.29CHEN XQ, PEREIRA JCF, “Efficient computation of particle dispersion in turbulent flows with a stochastic-probabilistic model”, Int. J. Heat and Mass Transfer, 1997 (40) :1727-174130SHUN R. and LI Z.Q. “Simulation of strong swirling flow by use of different turbulence model”, Power Engineering, 2002 (22).31SUASNABAR, D. J., “Dense medium cyclone performance enhancement via computational modelling of the physical processes”, Ph.D thesis 200032谷新春,王伟文,王立新,陈光辉,李建隆.环流式旋风除尘器内流场的数值模拟J.高校化学工程学报,2001, 3 (21):411-416.33 L. Ma, D.B. Ingham, X. Wen, Numerical modeling of the fluid and particle penetration through small sampling cyclones, J. Aerosol Sci. 2000 (31) 10971119.34 K. Hanjalic, Advanced turbulence closure models: a view of current status and future prospects, Int. J. Heat Fluid Fl. 1994 (14) 178180.35王福军.计算流体动力学分析-CFD软件原理与应用M.北京：清华大学出版社.2004:65-67,132-133,228-23036B. Wang, D. L Xu, A. B. Yu. Numerical Study of Gas-solid Flow In A Cyclone Separator J. Applied mathematical Modeling, 2006, 11 (30): 1326-134237张红波,嵇鹰,刘辉等.旋风分离器环形空间三维流场的数值模拟J, 矿山机械2007, 35 (11):97-100.38罗志浩.方形上排气型分离器内气固两相流动特性的数值模拟研究D.浙江:浙江大学,2001.39 S M Fraser, A M Abdel Razek et al. Computational and experimental investigations in a cyclone dust separatorJ. Proceedings of Institution of the Mechanical Engineers, Part E, 211:247-257.40姜大志.旋风除尘器内部流场的数值研究J,盐城工学院学报(自然科学版). 2007 41岑可法，樊建人.工程气固多相流动的理论与计算M.浙江:浙江大学出版社,I990.42时均,汪家鼎,余国琮,陈敏恒.化学工程手册 (第二版) M.北京:化学工业出版社,1996.43Fluent Inc., FLUENT Users Guide. Fluent Inc.,200344Fluent Inc.,GAMBIT Modeling Guide. Fluent Inc.,200345陶文铨.数值传热学（第二版）.西安：西安交通大学出版社，199546 魏新利，张海红，王定标等. 旋风分离器内颗粒轨迹的数值模拟, 郑州大学学报：工学版J.2004, 25 (3):100-10647周力行湍流两相流动与燃烧的数值模拟M北京：清华大学出版社，199148张吉光，张竹茜，钱付平. 降阻条件下旋风分离器的性能J.发电设备,2003, 4 (17):20-2349. M.E Fayed., L Otten. Handbook of Powder，Science and TechnologyM.Chemical Industry Press, 1992:63050 C. B SHEPHERD., C. E LAPPLE. Flow Pattern and Pressure Drop in Cyclone Dust Collectors J.INDUSTRIAL AND ENGINEERING CHEMISTRY,1940, 40 (32):1246-124851 A.K. Gupta, D.G. Lilley, N. Syred, Swirl Flows, Abacus Press, Tunbridge Wells, 1984.52 L.X. Zhou, S.L. Soo, Gassolid flow and collection of solids in a cyclone separatorJ, Powder Techno. 1990, 63 (1):4553.53 C.C. Hwang, H.Q. Shen, G. Zhu, M.M. Khonsary, On the main flow pattern in hydro-cyclonesJ, J. Fluids Eng. 1983(115):2125.54 F. Boysan, W.H. Ayers, J. Swithenbank , A fundamental mathematical modelling approach to cyclone design, Trans. IchemE,1982(60):222230.55 S. Nieh, J. Zhang, Simulation of the strongly swirling aerodynamic field in a vortex combustor, J. Fluids Eng.1992(114):367374.56 E.D. Cristea, A. Coghe, G. Solero, P. Conti, 3-D numerical computation and validation of high solid loading flow inside a gas cyclone separator, in: Proceedings of the 1998 ASME Fluids Engineering Summer Meeting, Washington, DC, USA, June 1998.57 A.J. Linden, Investigations into cyclone dust collectors, Proc. Inst. Mech. Eng. 1949(130):233251.58 B.P. Ustimenko, M.A. Bukhman, Turbulent flow structure in a cyclone chamber, Teploenergetika 196815 (2) :6467.59 T. ODoherty, R. Jaryczewski, C.J. Bates, N. Syred, Velocity characteristics of cyclone combustors, vol. 1: Laser Anemometry, ASME, 1991.60 R.C. Chanaud, Observations of oscillatory motion in certain swirling flows, J. Fluid Mech. 1965 (21) :111127.61 J.J. Cassidy, H.T. Falvey, Observations of unsteady flow arising after vortex breakdown, J. Fluid Mech. 1970 (41):727736.62 F.C. Gouldin, R.N. Halthore, B.T. Vu, Periodic oscillations observed in swirling flows with and without combustion, in: Proceedings of the Twentieth Symposium (International) on Combustion, The Combustion Institute, 1984, 269276.63 J.K. Harvey, Some observations of the vortex breakdown phenomenon, J. Fluid Mech. 1962 (14):585592.64 T. Sarpkaya, On stationary and travelling vortex breakdown, J. Fluid Mech. 1971 (45) 545559.65 P.A. Yazdabady, A.J. Griffiths, N. Syred, Characterization of the PVC phenomena in the exhaust of a cyclone dust separator, Exp. Fluids 1994 (17):8495.66 R.P. Benedict, Fundamentals of Temperature Pressure and Flow Measurements, John Wiley & Sons, 1984.67 M.G.D. Fokke, T.L. Liem, J.J. Derksen, H.E.A. van den Akker, LDV and LIF experiments on the quasi-periodic and complex flow in a cyclone, in: Proceedings of the Seventh International Symposium on Applications of Laser Techniques to Fluid Mechanics, Lisbon, 1114 July, 1994.68 C. Arcoumanis, A. Hadjiapostolou, J.H. Whitelaw, Swirl center precession in engine flows, SAE Paper no. 870370, SAE International Congress and Exposition, Detroit, Michigan, 2327 February, 1987.69 R.P. Dring, M. Suo, Particle trajectories in swirling flows, AIAA J. Energy 1978(2) 232237.70 高广德，张泽虎，何璐璐.螺旋式旋风分离器分离性能影响因素的数值分析J.煤矿机械,2009, 30 (7):71-7471 高士虎， 王承学.新型旋风分离器去除高温气体中超微粉尘J.长春工业大学学报(自然科学版),2009, 30 (3):245-24972 李敏 贲伟 任志民等. 旋风分离器内部气-固两相流场研究与发展J 化工机械2009, 36 (2):89-9273龚智立,马贵阳,郑平.旋风分离器内湍流模型的研究与发展J.重庆科技学院学报,2006, 3 (8):70-7474李文东,王连泽.旋风分离器内流场的数值模拟及方法分析J.环境工程,2004,22(2):37-3975钱付平,章名耀.旋风分离器性能的经验模型与数值预测J.东南大学学报.2005, 1 (35):35-3976Hu L. Y., Shi M. X., Zhou L. X. and Zhang J. Numerical simulation of 3-D strongly swirling turbulent flow in a cyclone separatorJ. Journal of Hsinghua University, 2004, 44 (11):1501-1504. 77Hu L. Y., Zhou L. X., Shi M. X., et al. A modified pressure-strain model for simulating strongly swirling flows in a cyclone separatorJ. Engineering Mechanics, 2005,22 (5):83-8878 M.-S. Shin, H.-S. Kim, D.-S. Jang, J.-D. Chung, M. Bohnet, A numerical and experimental study on a high efficiency cyclone dust separator for high temperature and pressurized environments, Appl. Thermal Eng. 2005 ,25(11/12) 18211835.79 S.-Y. Liu, Y. Zhang, B.-G. Wang, Cyclone separator three-dimensional turbulent flow-field simulation using the Reynolds stress modelJ, Trans. Beijing Instit. Technol. 2005,25 (5):377379, 383.80 L.Y. Hu, L.X. Zhou, J. Zhang, M.X. Shi, Studies on strongly swirling flows in the full space of a volute cyclone separatorJ, AIChE J. 2005, 51 (3):740749.81 R. Zhang, P. Basu, Simple model for prediction of solid collection efficiency of a gas-solid separatorJ, Powder Technol.2004, 147 (13):8693.82 B.T. Zhao, A theoretical approach to pressure drop across cyclone separatorsJ, Chem. Eng. Technol.2004(27):1011051108.83 M. Suzuki, K. Ojima, K. Iimura and M. Hirota, Measurement of vertical voidage distribution in powder packed bed using X-ray micro computed tomographycomparison between piston compression and centrifugal compression, J. Soc. Powder Technol., Japan 41, 2004:663667 84 M. Suzuki, T. Tsuchitani, K. Iimura and M. Hirota, Measurement of voidage distribution in particle packed bed using X-ray micro computed tomography, in: Proc. 4th World Congress on Industrial Process Tomography, Aizu, 2005, 2: 93093585 M. Suzuki, Principle of X-ray micro computed tomography and application for refractory research,J. Technical Assoc. Refractories, Japan 27, 2007:788386Li,Y., Shock, R., Zhang, R. and Chen, H., “Numerical Study of Flow Past an Impulsively Started Cylinder by Lattice Blotzmann Method,” J. Fluid Mech., 2004(519): 273-300.87 Li,Y., Shock, R., Zhang, R. and Chen, H., “Simulation of Flow over Iced Airfoil by Using a Lattice Boltzmann Method,”AIAA Paper 2005-1103, 43rd AIAA Aerospace Sciences Meeting and Exhibit, January 10-13 2005, Reno, Nevada88Pope, S. B. “Turbulent Flows,” Cambridge University Press, 2001.89Qian, Y., dHumieres, D. and Lallemand, P., “Lattice BGK Models for the Navier-Stokes Equation,” Europhys. Lett., 1992(17):479-484.90Robert Harwood and Michael Slack, “CFD analysis of a Cyclone,” QNET-CFD Network Newsletter, 2002, 1 ( 4): 25-27.91 H. Yoshida, K. Ono, K. Fukui, The effect of a new method of fluid flow control on sub-micron particle classification in gas-cyclones, Powder Technology, 2005(149):13914792Ayers, W., Boysan, H. F., Swithenbank, J. and Ewan, B.C.R., “Theoretical modeling of cyclone performance,” Filtration &Separation, 1985:39-43.93 Bhatnagar,