中文
Earlier issues
Announcement
More
Progress in Chemistry 2000, Vol. 12 Issue (02): 208- Previous Articles   Next Articles

• Review •

Progress of the Simulation of Particle-Fluid Two-Phase Flow

Wang Wei;Li Youchu   

  1. Institute of Chemical Metallurgy, Chinese Academy of Sciences,Beijing 100080, China
  • Received: Revised: Online: Published:
PDF ( 5792 ) Cited
Export

EndNote

Ris

BibTeX

The characteristics and simulation methods of particle fluid two phase flow are introduced. The current situation and development of pseudo fluid model are discussed in details. The prospects of different modeling methods are presented.
Key words: two phase flow, pseudo fluid model, pseudo particle model, solid trajectry model, simulation, fluidization

CLC Number: 

[1 ] 国井大藏(KuniiD) , 列文斯比尔(Levenspiel O ) , 流态化工程(Fluidization Engineering ) , 石油化学工业出版社, 北京, 1977, 101—127.
[2 ] Li Y, Zhang X,in Advancesin Chemical Engineering (ed. Kwauk M ) , Academic Press, New York,1994, 20, 333—388.
[3 ] Li Y,in Advancesin Chemical Engineering (ed. Kwauk M ) , Academic Press, New York, 1994, 20,85—146.
[4 ] Li J , Tung Y, Kwauk M , Sciencein China (Ser. B ) , 1990, 33 (5) , 523.
[5 ] 刘大有(Liu D) , 二相流体动力学(Two-Phase Fluid Dynamics) , 高等教育出版社, 北京, 1993, 30—102.
[6 ] Anderson T B, Jackson R, I&EC Fundamentals, 1967, 6 (4) , 527—539.
[7 ] Soo S L , Fluid Dynamicsof Multiphase Systems, Blaisdell Publishing Co. , Waltham , 1967, 1—100.
[8 ] Wallis G B, One Dimensional Two-Phase Flow , McGrall-Hill, New York, 1969, 1—100.
[9 ] Ishii M , Thermo-Fluid Dynamic Theoryof Two-Phase Flow , Eyrolles, Paris, 1975, 42—89.
[10 ] Davidson J F, Harrison D, Fluidiz ed Particles, Cambridge University Press, New York, 1963,42—100.
[11 ] Van Deemter J J ,in Proceedingsofthe International Symposiumon Fluidization, Eindhoven (ed.Drinkhenburg A ) , Netherlands University Press, 1967, 91—98.
[12 ] Gidaspow D, Appl. Mech. Rev. , 1986, 39 (1) , 1—23.
[13 ] Lyczkowski R W , Gidaspow D, Solbrig C W et al. , Nucl. Sci. Eng. , 1978, 66, 378—396.
[14 ] Bouillard J X, Lyczkowski R W , Gidaspow D, AIChEJ. , 1989, 35 (6) , 908—922.
[15 ] 洪若瑜(Hong R Y) , 内循环和外循环流化床中超细粉流态化的研究, 中国科学院化工冶金研究所博士学位论文, 北京, 1996.
[16 ] Horio M , Iwadate Y, Sugaya T , Powder Tech. , 1998, 96, 148—157.
[17 ] Tsuji Y, Tanaka T , Yonemura S, Powder Tech. , 1998, 95, 254—264.
[18 ] 周力行(Zhou L X) , 湍流气粒两相流动和燃烧的理论与数值模拟(Theory and Numerical Modeling of Turbulent Gas-Particle Flows and Combustion) , 科学出版社, 北京, 1994, 153—200.
[19 ] Ge W , Li J ,in Circulating Fluidized Bed Technology V (eds. Kwauk M , Li J ) , Science Press,Beijing, 1996, 260—266.
[20 ] Kuipers J A M , Van Swaaij W P M , Rev. Chem. Eng. , 1997, 13 (3) , 1—118.
[21 ] Sinclair J L ,in Circulating Fluidized Beds (ed. Grace J R ) , Chapman & Hall, New York, 1997,150—180.
[22 ] 刘大有, 现代力学与科技进步, 北京, 清华大学出版社, 1997, 622—625.
[23 ] Li J , Kwauk M , Particle-Fluid Two-Phase Flow : The Energy -Minimization Multi-Scale Method ,Beijing, Metallurgical Industry Press, 1994.
[24 ] Xu G, Zhang Y, Selected Papers of Engineering Chemistry and Metallurgy , Science Press, Beijing,1994, 115—128.
[25 ] Rudinger G, Fundamentals of Gas-Particle Flow , Elsevier Scientific Publishing Co. , Amsterdam ,1980, 3—50.
[26 ] Ding J , Gidaspow D, AIChEJ. , 1990, 36, 523—538.
[27 ] 刘大有(Liu D Y) , 王柏懿(Wang B Y) , 力学学报(Acta Mech. Sinica) , 1992, 24, 1.
[28 ] Gidaspow D, Multiphase Flow and Fluidization: Continuum and Kinetic Theory Descriptions,Academic Press, London, 1994, 201—269.
[29 ] Sinclair J L , Jackson R, A IChE J. , 1989, 35, 1473.
[30 ] Pita J A , Sundaresan S, A IChE J. , 1993, 39, 541.
[31 ] Gabor J D, Chem. Eng. J. , 1972, 4, 118—126.
[32 ] Gera D, Gautam M , Tsuji Y et al. , Powder Tech. , 1998, 98, 38—47.
[33 ] Hong R, Powder Tech. 1996, 87, 73—81.
[34 ] Boemer A , Qi H, Renz U , Int. J. Multiphase Flow , 1997, 23 (5) , 927—944.
[35 ] Cao J , Ahmadi G, Int. J. Multiphase Flow , 1995, 21 (6) , 1203—1228.
[36 ] Ahmadi G, Ma D, Int. J. Multiphase Flow , 1990, 16, 323.
[37 ] Benyahia S, Arastoopour H, Knowlton T ,in Fluidization ? (eds. Horio M , Knowlton T ) ,Engineering Foundation, Colorado, 1998, 493—500.
[38 ] 查普曼(Chapmann S) , 考林(Cowling T G) , 非均匀气体的数学理论(The Mathematical Theory of Non-Uniform Gases) , 科学出版社, 北京, 1990, 160—226.
[39 ] Nieuwland J J , Kuipers M , Van Swaaij W , A IChE J. , 1996, 42, 1569—1583.
[40 ] Bolio E J , Yasuna J A , Sinclair J L , A IChE J. , 1995, 41 (6) , 1375—1388.
[41 ] Samuelsberg A , Hjertager B, Int. J. Multiphase Flow , 1996, 22 (3) , 575—591.
[42 ] Lun C, Savage S B, Jeffrey D et al. , J. Fluid Mech. , 1984, 140, 223.
[43 ] Srinivasa M L , Prabhu N R, Rao K K, Chem. Eng. Sci. , 1997, 52 (6) , 913—933.
[44 ] Prakash J R, Rao K K, Chem. Eng. Sci. , 1988, 43 (4) , 479—494.
[45 ] Kuipers J A M , Hoomans B P B, Van Swaaij W P M ,in Fluidization ? (eds. Horio M , Knowlton T ) , Engineering Foundation, Colorado, 1998, 15—30.
[46 ] Gidaspow D, Lu H, A IChE J. , 1998, 44 (2) , 279—293.
[47 ] 李佑楚, 化学工程手册, 化学工业出版社, 北京, 1989, 19 (7) , 157—220.
[48 ] Richardson J , Zaki W , Trans. Inst. Chem. Eng. , 1954, 32— 35.
[49 ] 葛蔚, 流态化系统的多尺度计算机模拟, 哈尔滨工业大学博士学位论文, 1998, 50—60.
[50 ] Soo S L , Particulates and Continuum : Multiphase Fluid Dynamics, Hemisphere Publishing Co. ,New York, 1990, 1—85.
[51 ] Samuelsberg A , H jertager B H, A IChE J. , 1996, 42 (6) , 1536—1546.
[52 ] Louge M , Mastorakos E, Jenkins J T , J. Fluid Mech. , 1991, 231, 345—359.
[53 ] Pita J A , Sundaresan S, A IChE J. , 1991, 37, 1009.
[54 ] Ocone R, Sundaresan S, J ackson R, A IChE J. , 1993, 39 (8) , 1261—1271.
[55 ] Tsuo Y P, Gidaspow D, A IChE J. , 1990, 36, 886.
[56 ] Hrenya C M , Sinclair J L , A IChE J. , 1997, 43, 853.
[57 ] Dasgupta S, Jackson S, Sundaresan S, A IChE J. , 1994, 40 (2) , 215—228.
[58 ] Ding J ,in Circulating Fluidized Bed Technology í (eds. Kwauk M , Li J ) , Science Press, Beijing,1996.
[59 ] Bolio E J , Sinclair J L , Int. J. Multiphase Flow , 1995, 21, 985.
[60 ] 欧阳洁(Ouyang J ) , 李静海(Li J H ) , 中国科学(B ) 辑(Sciencein China, Ser. B ) , 1999, 29 (1) ,29—38.
[61 ] Hoomans B P B, Kuipers J A M , Briels W J et al. , Chem. Eng. Sci. , 1996, 51 (1) , 99—118.
[62 ] Tsuji Y, Kaw aguchi T , Tanaka T , Powd er T ech. , 1993, 77 (1) , 79—87.
[63 ] Horio M , Iwadate Y, Mikami T et al. ,in 6th China-Japan Symposiumon Fluidization (eds. Jin Y,Li J , Mori S et al. ) , Beijing, 1997, 1—6.
[64 ] Iwadate Y, Horio M ,in Proceedingsofthe 9th International Engineering Foundation Conferenceon Fluidization (eds. Fan L S, Knowlton T M ) , New York, 1998, 294—300.
[65 ] Yonemura S, Tanaka T , Tsuji Y,in Gas-Solid Flows, A SM E, 1993, 166, 303—309.
[66 ] Smoot L D, Smith P J , Coal Combustion and Gasification, Plenum Press, 1985.
[67 ] Sun Q , Li J H,in Asia-Pacific Chemical Reaction Engineering Symposium “A PCR E 99”, Hong Kong, 1999, 593—600.
[1] Wei Li, Tiangui Liang, Yuanchuang Lin, Weixiong Wu, Song Li. Machine Learning Accelerated High-Throughput Computational Screening of Metal-Organic Frameworks [J]. Progress in Chemistry, 2022, 34(12): 2619-2637.
[2] Weijia Zhang, Xueguang Shao, Wensheng Cai. Molecular Simulation of the Antifreeze Mechanism of Antifreeze Proteins [J]. Progress in Chemistry, 2021, 33(10): 1797-1811.
[3] Quanchao Zhuang, Zi Yang, Lei Zhang, Yanhua Cui. Research Progress on Diagnosis of Electrochemical Impedance Spectroscopy in Lithium Ion Batteries [J]. Progress in Chemistry, 2020, 32(6): 761-791.
[4] Chen Ni, Di Jiang, Youlin Xu, Wenlai Tang. Application of Viscoelastic Fluid in Passive Particle Manipulation Technologies [J]. Progress in Chemistry, 2020, 32(5): 519-535.
[5] Jinghao Liu, Xueqian Wu, Yufeng Wu, Jiamei Yu. Computational Study on Adsorption and Separation of C2 and C3 Hydrocarbons by Metal-Organic Frameworks [J]. Progress in Chemistry, 2020, 32(1): 133-144.
[6] Ze Feng, Dan Sun, Yougen Tang, Haiyan Wang. Rich-Nickel Ternary Layered Oxide LiNi0.8Co0.1Mn0.1O2 Cathode Material [J]. Progress in Chemistry, 2019, 31(2/3): 442-454.
[7] Haochuan Chen, Haohao Fu, Xueguang Shao, Wensheng Cai. Importance Sampling Methods and Free Energy Calculations [J]. Progress in Chemistry, 2018, 30(7): 921-931.
[8] Li Yanchun, Li Yang. Computer Simulation Study on the Molecular Design and the Self-Assembly Process of Au-Nanoparticle and Polymer Composite System [J]. Progress in Chemistry, 2015, 27(7): 848-852.
[9] Qi Huabiao, Zhou Guangzheng, Yu Fuhai, Ge Wei, Li Jinghai. Researches on Mixing of Granular Materials with Discrete Element Method [J]. Progress in Chemistry, 2015, 27(1): 113-124.
[10] Lei Dongsheng, Tong Huimin, Zhang Lei, Zhang Xing, Zhang Shengli, Ren Gang. Structure and Function of Cholesteryl Ester Transfer Protein in Transferring Cholesteryl Ester [J]. Progress in Chemistry, 2014, 26(05): 879-888.
[11] Sheng Yuping, Yan Nan, Zhu Yutian, An Jian. Computer Simulation of Self-Assembly of Block Copolymers in Selective Solvent [J]. Progress in Chemistry, 2014, 26(0203): 358-365.
[12] Zhao Lijun, Lei Ming. Computational Chemical Studies on Transthyretin [J]. Progress in Chemistry, 2014, 26(01): 193-202.
[13] Chang Shanyan, Liu Fufeng*. Molecular Simulations of ATP-Binding Cassette Transporters [J]. Progress in Chemistry, 2013, 25(07): 1208-1218.
[14] Ji Lin*, Yan Xinping. Stochastic and Hybrid Simulation Algorithms for Biochemical Reactions in Mesoscopic Systems [J]. Progress in Chemistry, 2013, 25(06): 893-899.
[15] Chen Jingfei, Hao Jingcheng. Coarse-Grained Molecular Dynamics Simulation of Surfactants in Aqueous Solution [J]. Progress in Chemistry, 2012, (10): 1890-1896.