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Drying Technology
An International Journal
Volume 19, 2001 - Issue 6
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Original Articles

GAS-TO-PARTICLE HEAT TRANSFER IN THE DRAFT TUBE OF A SPOUTED BED

L. A. P. Freitas School of Pharmaceutical Sciences at Ribeirão Preto – Universidade de São Paulo Via do Café s/n, Ribeirão Preto, SP, CEP 14040-903, BrazilCorrespondence[email protected]
&
J. T. Freire Department of Chemical Engineering, Universidade Federal de São Carlos Via Washington Luis, km 235, São Carlos, SP, 13565-905, Brazil
Pages 1065-1082 | Published online: 06 Feb 2007

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Read on this site (5)

Aitor Pablos, Roberto Aguado, Jorge Vicente, Haritz Altzibar, Javier Bilbao & Martin Olazar. (2020) Effect of operating conditions on the drying of fine and ultrafine sand in a fountain confined conical spouted bed. Drying Technology 38:11, pages 1446-1461.
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T. Arvind, R. Thiyagu & H. Nelson. (2019) Effect of performance parameters on the pneumatic conveying solid–gas heat transfer. International Journal of Ambient Energy 40:4, pages 413-416.
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J. Berghel & R. Renström. (2014) An Experimental Study on the Influence of Using a Draft Tube in a Continuous Spouted Bed Dryer. Drying Technology 32:5, pages 519-527.
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H. Altzibar, G. Lopez, S. Alvarez, M. J. San José, A. Barona & M. Olazar. (2008) A Draft-Tube Conical Spouted Bed for Drying Fine Particles. Drying Technology 26:3, pages 308-314.
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Jonas Berghel. (2005) The Gas-to-Particle Heat Transfer and Hydrodynamics in Spouted Bed Drying of Sawdust. Drying Technology 23:5, pages 1027-1041.
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Articles from other publishers (21)

Amarílis S. Souza & Rodrigo Béttega. (2023) CFD evaluation of the influence of the draft tube on solids circulation in conical spouted beds. Journal of the Brazilian Society of Mechanical Sciences and Engineering 45:9.
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María J. San José, Sonia Alvarez & Raquel López. (2023) Conical spouted bed combustor to obtain clean energy from avocado waste. Fuel Processing Technology 239, pages 107543.
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Juan F. Saldarriaga, Yuby Cruz, Idoia Estiati, Mikel Tellabide & Martin Olazar. (2022) Assessment of pressure drop in conical spouted beds of biomass by artificial neural networks and comparison with empirical correlations. Particuology 70, pages 1-9.
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Juan F. Saldarriaga. (2022) Application of an artificial neural networks for predicting the heat transfer in conical spouted bed using the Nusselt module. Heliyon, pages e11611.
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Xabier Sukunza, Roberto Aguado, Aitor Pablos, Mikel Tellabide, Idoia Estiati & Martin Olazar. (2022) Mass transfer in conical spouted beds equipped with internal devices. Powder Technology 410, pages 117850.
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Amarílis S. Souza, José T. Freire & Rodrigo Béttega. (2018) Computational Fluid Dynamics Evaluation of the Influence of Cone Geometry on Solids Circulation in Spouted Beds. Industrial & Engineering Chemistry Research 57:41, pages 13876-13888.
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Rashmi Dhurandhar, Jyoti Prakash Sarkar & Bimal Das. (2018) The recent progress in momentum, heat and mass transfer studies on pneumatic conveying: a review. Heat and Mass Transfer 54:9, pages 2617-2634.
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Juan F. Saldarriaga, Roberto Aguado, Aitor Atxutegi, John Grace, Javier Bilbao & Martin Olazar. (2016) Correlation for Calculating Heat Transfer Coefficient in Conical Spouted Beds. Industrial & Engineering Chemistry Research 55:35, pages 9524-9532.
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Juan F. Saldarriaga, John Grace, C. Jim Lim, Ziliang Wang, Nong Xu, Aitor Atxutegi, Roberto Aguado & Martin Olazar. (2015) Bed-to-surface heat transfer in conical spouted beds of biomass–sand mixtures. Powder Technology 283, pages 447-454.
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Aitziber Erkiaga, Gartzen Lopez, Maider Amutio, Javier Bilbao & Martin Olazar. (2014) Influence of operating conditions on the steam gasification of biomass in a conical spouted bed reactor. Chemical Engineering Journal 237, pages 259-267.
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Haritz Altzibar, Gartzen Lopez, Javier Bilbao & Martin Olazar. (2013) Operating and Peak Pressure Drops in Conical Spouted Beds Equipped with Draft Tubes of Different Configuration. Industrial & Engineering Chemistry Research 53:1, pages 415-427.
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H. Altzibar, G. Lopez, I. Estiati, J. Bilbao & M. Olazar. (2013) Particle Cycle Times and Solid Circulation Rates in Conical Spouted Beds with Draft Tubes of Different Configuration. Industrial & Engineering Chemistry Research 52:45, pages 15959-15967.
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Aitziber Erkiaga, Gartzen Lopez, Maider Amutio, Javier Bilbao & Martin Olazar. (2013) Syngas from steam gasification of polyethylene in a conical spouted bed reactor. Fuel 109, pages 461-469.
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J. Makibar, A.R. Fernandez-Akarregi, I. Alava, F. Cueva, G. Lopez & M. Olazar. (2011) Investigations on heat transfer and hydrodynamics under pyrolysis conditions of a pilot-plant draft tube conical spouted bed reactor. Chemical Engineering and Processing: Process Intensification 50:8, pages 790-798.
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Chalida Niamnuy, Wasan Kanthamool & Sakamon Devahastin. (2011) Hydrodynamic characteristics of a pulsed spouted bed of food particulates. Journal of Food Engineering 103:3, pages 299-307.
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Andrzej Kmiec & Sebastian Englart. 2011. Spouted and Spout-Fluid Beds. Spouted and Spout-Fluid Beds 161 174 .
K.S. Rajan, S.N. Srivastava, B. Pitchumani & V. Surendiran. (2010) Thermal conductance of pneumatic conveying preheater for air–gypsum and air–sand heat transfer. International Journal of Thermal Sciences 49:1, pages 182-186.
Crossref
G.B. Borini, T.C. Andrade & Luis A.P. Freitas. (2009) Hot melt granulation of coarse pharmaceutical powders in a spouted bed. Powder Technology 189:3, pages 520-527.
Crossref
K.S. Rajan, S.N. Srivastava, B. Pitchumani & K. Dhasandhan. (2008) Experimental study of thermal effectiveness in pneumatic conveying heat exchanger. Applied Thermal Engineering 28:14-15, pages 1932-1941.
Crossref
K.S. Rajan, K. Dhasandhan, S.N. Srivastava & B. Pitchumani. (2008) Studies on gas–solid heat transfer during pneumatic conveying. International Journal of Heat and Mass Transfer 51:11-12, pages 2801-2813.
Crossref
Somkiat Prachayawarakorn, Samart Ruengnarong & Somchart Soponronnarit. (2006) Characteristics of heat transfer in two-dimensional spouted bed. Journal of Food Engineering 76:3, pages 327-333.
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