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Chemical Engineering Communications Volume 41, 1986 - Issue 1-6
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Original Articles

HIGH TEMPERATURE INCIPIENT FLUIDIZATION IN MONO AND POLYDISPERSE SYSTEMS

A. LUCAS Chemical Engineering Department, Universitat Politecnica de Catalunya, Diagonal 647, Barcelona, 08028, SpainView further author information
,
J. ARNALDOS Chemical Engineering Department, Universitat Politecnica de Catalunya, Diagonal 647, Barcelona, 08028, Spain
,
J. CASAL Chemical Engineering Department, Universitat Politecnica de Catalunya, Diagonal 647, Barcelona, 08028, Spain
&
L. PUIGJANER Chemical Engineering Department, Universitat Politecnica de Catalunya, Diagonal 647, Barcelona, 08028, Spain
Pages 121-132 | Received 30 Apr 1984, Accepted 29 May 1985, Published online: 02 Apr 2007

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Gautam Prasad Dewangan & Samarendra Nath Saha. (2023) Prediction of minimum and complete fluidization velocity and transport disengaging height of the segregated coal in a cold flow fluidized bed. Particulate Science and Technology 41:3, pages 378-391.
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QINGJIE GUO, TOSHIYUKI SUDA, JUNI'CHI SATO & GUANGXI YUE. (2004) AGGLOMERATION BEHAVIOR IN A BUBBLING FLUIDIZED BED AT HIGH TEMPERATURE. Chemical Engineering Communications 191:10, pages 1329-1342.
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Articles from other publishers (40)

Kai Huang, Shuanghe Meng, Tao Zhang, Mao Ye, Wuqiang Yang & Zhongmin Liu. (2023) Study of Fluidization Behavior Transition from Geldart B to A Induced by High Temperature Using Electrical Capacitance Tomography. Industrial & Engineering Chemistry Research 62:42, pages 17201-17215.
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G.P. Dewangan & S.N. Saha. (2021) Fluidization characteristics of sawdust in a cold flow fluidized bed. Journal of the Indian Chemical Society 98:12, pages 100235.
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Domenico Macrì, Massimo Poletto, Diego Barletta & Paola Lettieri. (2020) An investigation of the flow properties of rutile particles: Fluidization behaviour linked with shearing studies. Powder Technology 374, pages 544-559.
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Nur Syakina Jamali, Jamaliah Md Jahim, Sompong O-Thong & Aminee Jehlee. (2019) Hydrodynamic characteristics and model of fluidized bed reactor with immobilised cells on activated carbon for biohydrogen production. International Journal of Hydrogen Energy 44:18, pages 9256-9271.
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Sébastien Pecate, Mathieu Morin, Sid Ahmed Kessas, Mehrdji Hemati, Yilmaz Kara & Sylvie Valin. (2019) Hydrodynamic Study of a Circulating Fluidized Bed at High Temperatures: Application to Biomass Gasification. KONA Powder and Particle Journal 36:0, pages 271-293.
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I.A. Gibson, C.J. Slim, Yaoyao Zheng, S.A. Scott, J.F. Davidson & A.N. Hayhurst. (2018) An examination of Wen and Yu’s formula for predicting the onset of fluidisation. Chemical Engineering Research and Design 135, pages 103-111.
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Nestor Proenza Pérez, Daniel Travieso Pedroso, Einara Blanco Machin, Julio Santana Antunes, Ricardo Alan Verdú Ramos & Jose Luz Silveira. (2018) Prediction of the minimum fluidization velocity of particles of sugarcane bagasse. Biomass and Bioenergy 109, pages 249-256.
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Aditya Anantharaman, Ray A. Cocco & Jia Wei Chew. (2018) Evaluation of correlations for minimum fluidization velocity (U) in gas-solid fluidization. Powder Technology 323, pages 454-485.
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Nestor Proenza Pérez, Daniel Travieso Pedroso, Einara Blanco Machin, Julio Santana Antunes, Ricardo Alan Verdú Ramos & Jose Luz Silveira. (2017) Fluid dynamic study of mixtures of sugarcane bagasse and sand particles: Minimum fluidization velocity. Biomass and Bioenergy 107, pages 135-149.
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Luis Puigjaner. 2017. Trends and Applications in Software Engineering. Trends and Applications in Software Engineering 79 89 .
Jaber Shabanian & Jamal Chaouki. (2016) Fluidization characteristics of a bubbling gas–solid fluidized bed at high temperature in the presence of interparticle forces. Chemical Engineering Journal 288, pages 344-358.
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Paola Lettieri & Domenico Macrì. (2016) Effect of Process Conditions on Fluidization. KONA Powder and Particle Journal 33:0, pages 86-108.
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John G. Yates & Paola LettieriJohn G. Yates & Paola Lettieri. 2016. Fluidized-Bed Reactors: Processes and Operating Conditions. Fluidized-Bed Reactors: Processes and Operating Conditions 137 173 .
Katia Tannous & Joana Bratz Lourenço. 2015. Innovative Solutions in Fluid-Particle Systems and Renewable Energy Management. Innovative Solutions in Fluid-Particle Systems and Renewable Energy Management 54 91 .
J. Sánchez-Prieto, A. Soria-Verdugo, J.V. Briongos & D. Santana. (2014) The effect of temperature on the distributor design in bubbling fluidized beds. Powder Technology 261, pages 176-184.
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R.O. Lourenço, C.M.L. Costa, Cristina dos Santos Rocha Sandra, A.L.A. Mesquita & E.N. Macêdo. (2010) Fluid Dynamic Study of the Fluidized Bed Wit Jambu Seeds (<i>Sphilantes oleracea</i> L.). Materials Science Forum 660-661, pages 413-418.
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S.K. Gupta, V.K. Agarwal, S.N. Singh, V. Seshadri, David Mills, J. Singh & Chandra Prakash. (2009) Prediction of minimum fluidization velocity for fine tailings materials. Powder Technology 196:3, pages 263-271.
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R. Girimonte & B. Formisani. (2009) The minimum bubbling velocity of fluidized beds operating at high temperature. Powder Technology 189:1, pages 74-81.
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Hariprasad J. Subramani, M.B. Mothivel Balaiyya & Lima Rose Miranda. (2007) Minimum fluidization velocity at elevated temperatures for Geldart’s group-B powders. Experimental Thermal and Fluid Science 32:1, pages 166-173.
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T. H. Druitt, G. Avard, G. Bruni, P. Lettieri & F. Maez. (2007) Gas retention in fine-grained pyroclastic flow materials at high temperatures. Bulletin of Volcanology 69:8, pages 881-901.
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Giovanna Bruni, Paola Lettieri, David Newton & Diego Barletta. (2007) An investigation of the effect of the interparticle forces on the fluidization behaviour of fine powders linked with rheological studies. Chemical Engineering Science 62:1-2, pages 387-396.
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R. Coltters & A.L. Rivas. (2004) Minimum fluidation velocity correlations in particulate systems. Powder Technology 147:1-3, pages 34-48.
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S.G. Leon Escalante, G. Dominguez & G. Touchard. (2004) Phénomènes électrostatiques dans les lits fluidisés et nouvelle méthode pour la mesure de la vitesse minimale de fluidisation dans les matériaux pulvérulents. Journal of Electrostatics 60:1, pages 1-13.
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B Formisani, R Girimonte & G Pataro. (2002) The influence of operating temperature on the dense phase properties of bubbling fluidized beds of solids. Powder Technology 125:1, pages 28-38.
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P Lettieri, D Newton & J.G Yates. (2001) High temperature effects on the dense phase properties of gas fluidized beds. Powder Technology 120:1-2, pages 34-40.
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Joaquin Reina, Enrique Velo & Luis Puigjaner. (2000) Predicting the minimum fluidization velocity of polydisperse mixtures of scrap-wood particles. Powder Technology 111:3, pages 245-251.
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Miquel F. Llop, Joaquim Casal & Josep Arnaldos. (2000) Expansion of gas–solid fluidized beds at pressure and high temperature. Powder Technology 107:3, pages 212-225.
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D. Gauthier, S. Zerguerras & G. Flamant. (1999) Influence of the particle size distribution of powders on the velocities of minimum and complete fluidization. Chemical Engineering Journal 74:3, pages 181-196.
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P. Pre, M. Hemati & B. Marchand. (1998) Study on natural gas combustion in fluidized beds. Chemical Engineering Science 53:16, pages 2871-2883.
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B. Formisani, R. Girimonte & L. Mancuso. (1998) Analysis of the fluidization process of particle beds at high temperature. Chemical Engineering Science 53:5, pages 951-961.
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K. Tannous, M. Hemati & C. Laguerie. (1994) Caractéristiques au minimum de fluidisation et expansion des couches fluidisées de particules de la catégorie D de Geldart. Powder Technology 80:1, pages 55-72.
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S.C Saxena & C.K Jotshi. (1994) Fluidized-bed incineration of waste materials. Progress in Energy and Combustion Science 20:4, pages 281-324.
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G. Raso, M. D'Amore, B. Formisani & P.G. Lignola. (1992) The influence of temperature on the properties of the particulate phase at incipient fluidization. Powder Technology 72:1, pages 71-76.
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Miroslav Punčochář & Jiří Drahoš. (1992) A novel approach in classification of solid particles with respect to the quality of fluidization. Chemical Engineering Science 47:12, pages 3137-3142.
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A.K. Biń. (1992) Minimum fluidization velocity at different conditioning. Powder Technology 71:1, pages 111-114.
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J. Adánez & J.C. Abanades. (1991) Minimum fluidization velocities of fluidized-bed coal-combustion solids. Powder Technology 67:2, pages 113-119.
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J. Beňa & I. Havalda. (1991) The influence of particle Reynolds number on voidage at fluidization. Powder Technology 66:1, pages 97-99.
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S.C. Saxena, N.S. Rao & S.J. Zhou. (1990) Fluidization characteristics of gas fluidized beds at elevated temperatures. Energy 15:11, pages 1001-1014.
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S.C. Saxena. 1989. Advances in Heat Transfer Volume 19. Advances in Heat Transfer Volume 19 97 190 .
S. C. Saxena, A. Mathur & Z. F. Zhang. (2004) Incipient fluidization at different temperatures and powder characterization. AIChE Journal 33:3, pages 500-502.
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