29 ANÁLISIS DEL PATRÓN DE FLUJO DE UN LECHO FLUIDIZADO UTILIZANDO DISEÑOS ALTERNATIVOS DE PLATOS DE DISTRIBUCIÓN DE AIRE Delgado, Gordillo, González, Santamaría, García, Delgado. 5. Liu R, Li L, Yin W, Xu D, Zang H. Near-infrared Spectroscopy Monitoring and Control of the Fluidized Bed Granulaon and Coang Processes - A review. Internaonal Journal of Pharmaceucs. 2017; 530(1-2): p. 1-30. 6. Sutar H, Kumar V. The Effect of Distributor Design on Hydrodynamics of Conical Fluidized Bed Dryer. Internaonal Journal of Current Research. 2012; 4(09): p. 168-172. 7. Haron N, Zakaria J, Mohideen M. Hydrodynamics study on drying of pepper in swirling fluidized bed dryer (SFBD). Internaonal Research and Innovaon Summit. 2017;(226): p. 1-6. 8. Sathiyamoorthy D, Horio M. On the influence of aspect rao and distributor in gas fluidized beds. Chemical Engineering Journal. 2003;(93): p. 151-161. 9. Grupta CK, Sathiyamoorthy D. Fluid Bed Technology in Materials Processing. 1st ed. Boca Raton: CRC Press; 1998. 10. Mujumdar AS. Handbook of Industrial Drying. Tercera ed. Boca Raton: CRC Press; 2006. 11. Parikh DM. Handbook of Pharmaceucal Granulaon. Cuarta ed. Boca Raton: CRC Press; 2021. 12. Mohideen M, Sabudin S, Zakaria J. Improvement of Solid-Gas Interacon in Fluidized Bed Systems via Secondary Air-Injecon. MATEC Web of Conferences. 2017; 135(1): p. 1-7. 13. Shukrie A, Anuar S, Oumer A. Improvement on parculate mixing through inclined sloed swirling distributor in a fluidized bed: An experimental study. Advanced Powder Technology. 2016; 27(5): p. 2102-2111. 14. Ouyang F, Levenspiel O. Spiral Distributor for Fluidized Beds. Industrial & Engineering Chemistry Process Design and Development. 1986; 25(2): p. 504-507. 15. Mohideen M, Faiz M, Salleh H, ZaKaria H, Raghavan V. Drying of Oil Palm Frond via Swirling Fluidizaon Technique. Proceedings of the World Congress on Engineering. 2011; 3: p. 1-6. 16. Mohideen M, Seri S, Raghavan V. Fluidizaon of Geldart Type-D Parcles in a Swirling Fluidized Bed. Applied Mechanics and Materials. 2012; 110-116: p. 3720-3727. 17. Sreenivasan B, Raghavan V. Hydrodynamics of a swirling fluidised bed. Chemical Engineering and Processing. 2002; 41(2): p. 99-106. 18. Venkiteswaran V, Sulaiman S, Raghavan V. Comparave Study of the Hydrodynamic Performance of Shorter and Longer Blades im a Swirling Fluidized Bed. Advanced Materials Research. 2013; 772: p. 560-565. 19. Briens L, Bojarra M. Monitoring Fluidized Bed Drying of Pharmaceucal Granules. AAPS PharmSciTech. 2010; 11(4): p. 1612-1618. 20. Tousey M. The Granulaon Process 101: Basic Technologies for Tablet Making. Pharmaceucal Technology. 2002; 2002(2): p. 8-13. 21. Rhodes M. Introducon to Parcle Technology. segunda ed.: Wiley; 2008. 22. Richardson JF, Harker JH. Parcle Technology and Separaon Processes. quinta ed. Oxford: Buerworth-Heinemann; 2002. 23. Crowe C. Thermopedia. [Online].; 2010.. Disponible en: hps://www.thermopedia.com/ content/42/. 24. Paiva JM, Pinho C, Figueiredo R. The Influenceof the Distributor Plate on the Boom Zone of a Fluidized Bed Approaching the Transion from Bubbling to Turbulent Fluidizaon. Chemical Engineering Research and Design. 2004; 82(1): p. 25-33. 25. Hulin H, inventor; Apparatus for Treang Parculate Material. Estados Unidos. Patente 7,802,376 B2.