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Drying Technology
An International Journal
Volume 24, 2006 - Issue 9
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Original Articles

Conditions for Accurate CFD Modeling of Spray-Drying Process

Ireneusz Zbiciński Faculty of Process and Environmental Engineering, Lodz Technical University, Lodz, PolandCorrespondence[email protected]
&
Xuanyou Li Faculty of Process and Environmental Engineering, Lodz Technical University, Lodz, Poland
Pages 1109-1114 | Published online: 06 Feb 2007

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Ramin Razmi, Hasan Jubaer, Michał Krempski-Smejda, Maciej Jaskulski, Jie Xiao, Xiao Dong Chen & Meng Wai Woo. (2021) Recent initiatives in effective modeling of spray drying. Drying Technology 39:11, pages 1614-1647.
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Aldo Benavides-Morán, Alfonso Cubillos & Alexánder Gómez. (2021) Spray drying experiments and CFD simulation of guava juice formulation. Drying Technology 39:4, pages 450-465.
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Giulia Finotello, Johan T. Padding, Kay A. Buist, Annelien Schijve, Alfred Jongsma, Fredrik Innings & J. A. M. Kuipers. (2020) Numerical investigation of droplet-droplet collisions in a water and milk spray with coupled heat and mass transfer. Drying Technology 38:12, pages 1597-1619.
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Hasan Jubaer, Sepideh Afshar, Jie Xiao, Xiao Dong Chen, Cordelia Selomulya & Meng Wai Woo. (2018) On the importance of droplet shrinkage in CFD-modeling of spray drying. Drying Technology 36:15, pages 1785-1801.
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E. Tsotsas. (2015) Multiscale Approaches to Processes That Combine Drying with Particle Formation. Drying Technology 33:15-16, pages 1859-1871.
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J. Telmo Miranda, E. Muñoz Camacho, C. Herrero Latorre & J.C. Pérez Cerdán. (2014) Comparative Analysis of Explosion Vent Areas for Milk Spray Dryers According to the EN-14491 (2006) and NFPA-68 (2007) Standards. Drying Technology 32:12, pages 1466-1485.
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Pawel Wawrzyniak, Marek Podyma, Ireneusz Zbicinski, Zdzislaw Bartczak, Andrzej Polanczyk & Julia Rabaeva. (2012) Model of Heat and Mass Transfer in an Industrial Counter-Current Spray-Drying Tower. Drying Technology 30:11-12, pages 1274-1282.
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Maksim Mezhericher, Avi Levy & Irene Borde. (2012) Three-Dimensional Spray-Drying Model Based on Comprehensive Formulation of Drying Kinetics. Drying Technology 30:11-12, pages 1256-1273.
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Pawel Wawrzyniak, Marek Podyma, Ireneusz Zbicinski, Zdzislaw Bartczak & Julia Rabaeva. (2012) Modeling of Air Flow in an Industrial Countercurrent Spray-Drying Tower. Drying Technology 30:2, pages 217-224.
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Iris Schmitz, Alessandro Gianfrancesco, Ulrich Kulozik & Petra Foerst. (2011) Kinetics of Lysine Loss in an Infant Formula Model System at Conditions Applicable to Spray Drying. Drying Technology 29:16, pages 1876-1883.
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TarekJ. Jamaleddine & MadhumitaB. Ray. (2010) Application of Computational Fluid Dynamics for Simulation of Drying Processes: A Review. Drying Technology 28:2, pages 120-154.
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M. Mezhericher, A. Levy & I. Borde. (2009) Modeling of Droplet Drying in Spray Chambers Using 2D and 3D Computational Fluid Dynamics. Drying Technology 27:3, pages 359-370.
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M. M. Montazer-Rahmati & S. H. Ghafele-Bashi. (2007) Improved Differential Modeling and Performance Simulation of Slurry Spray Dryers as Verified by Industrial Data. Drying Technology 25:9, pages 1451-1462.
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M. Gabriela Bordón, Noelia P.X. Alasino, Nahuel M. Camacho, Francisco Millán-Rodríguez, Justo J. Pedroche-Jiménez, Álvaro Villanueva-Lazo, Pablo D. Ribotta & Marcela L. Martínez. (2023) Mathematical modeling of the spray drying processes at laboratory and pilot scales for the development of functional microparticles loaded with chia oil. Powder Technology 430, pages 119018.
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Zhe Li, Wang-Hai Peng, Wen-Jun Liu, Ling-Yu Yang, Abid Naeem, Yi Feng, Liang-Shan Ming & Wei-Feng Zhu. (2023) Advances in numerical simulation of unit operations for tablet preparation. International Journal of Pharmaceutics 634, pages 122638.
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Fei Zhang, Funian Han, Youyu Lu, Guanghua Wen, Shaopeng Gu, Zhe Wang & Ping Tang. (2023) Experimental study and numerical simulation of the influence of ball milling parameters on granule sizes of mold powder. Powder Technology 413, pages 118037.
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Borja Hernandez, Rosa Mondragon, Mark A. Pinto, Leonor Hernandez, J. Enrique Julia, Juan Carlos Jarque, Sergio Chiva & Mariano Martin. (2021) Single droplet drying of detergents: Experimentation and modelling. Particuology 58, pages 35-47.
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C.L. Alves, A. De Noni Jr, R. Janssen, D. Hotza, J.B. Rodrigues Neto, S.Y. Gómez González & M. Dosta. (2021) Integrated process simulation of porcelain stoneware manufacturing using flowsheet simulation. CIRP Journal of Manufacturing Science and Technology 33, pages 473-487.
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Hasan Jubaer, Sepideh Afshar, Serge Mejean, Romain Jeantet, Jie Xiao, Xiao Dong Chen, Cordelia Selomulya & Meng Wai Woo. (2020) Computationally inexpensive simulation of agglomeration in spray drying while preserving structure related information using CFD. Powder Technology 372, pages 372-393.
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Hasan Jubaer, Jie Xiao, Xiao Dong Chen, Cordelia Selomulya & Meng Wai Woo. (2019) Identification of regions in a spray dryer susceptible to forced agglomeration by CFD simulations. Powder Technology 346, pages 23-37.
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M.W. Woo. 2017. Handbook of Drying for Dairy Products. Handbook of Drying for Dairy Products 249 267 .
Pawel Wawrzyniak, Marek Podyma & Ireneusz Zbicinski. (2017) Industrial Spray Tower Hot Air Inlets Area Temperature Control. Journal of Chemical Engineering of Japan JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 50:10, pages 768-774.
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Víctor Francia, Luis Martín, Andrew E. Bayly & Mark J.H. Simmons. (2016) Agglomeration in counter-current spray drying towers. Part A: Particle growth and the effect of nozzle height. Powder Technology 301, pages 1330-1343.
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Víctor Francia, Luis Martín, Andrew E. Bayly & Mark J.H. Simmons. (2016) Agglomeration in counter-current spray drying towers. Part B: Interaction between multiple spraying levels. Powder Technology 301, pages 1344-1358.
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Mona Edrisi Sormoli & Timothy A.G. Langrish. (2016) The use of a plug-flow model for scaling-up of spray drying bioactive orange peel extracts. Innovative Food Science & Emerging Technologies 37, pages 27-36.
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A. Ferrari, S. Gutiérrez & G. Sin. (2016) Modeling a production scale milk drying process: parameter estimation, uncertainty and sensitivity analysis. Chemical Engineering Science 152, pages 301-310.
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Iris Schmitz-Schug, Ulrich Kulozik & Petra Foerst. (2016) Modeling spray drying of dairy products – Impact of drying kinetics, reaction kinetics and spray drying conditions on lysine loss. Chemical Engineering Science 141, pages 315-329.
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Clémence Bernard, Bertrand Broyart, Rafik Absi, Pablo Granda & Perla Relkin. (2012) Prediction of Thermohydric History of Whey Protein Concentrate Droplets during Spray Drying. Food and Bioprocess Technology 6:10, pages 2904-2915.
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M. Mezhericher, A. Levy & I. Borde. (2010) Spray drying modelling based on advanced droplet drying kinetics. Chemical Engineering and Processing: Process Intensification 49:11, pages 1205-1213.
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Rinil Kuriakose & C. Anandharamakrishnan. (2010) Computational fluid dynamics (CFD) applications in spray drying of food products. Trends in Food Science & Technology 21:8, pages 383-398.
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Kamlesh Patel, Xiao Dong Chen, Romain Jeantet & Pierre Schuck. (2010) One-dimensional simulation of co-current, dairy spray drying systems – pros and cons. Dairy Science & Technology 90:2-3, pages 181-210.
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Ulises Ramón Morales-Durán, Liliana Alamilla-Beltrán, Humberto Hernández-Sánchez, Jose Jorge Chanona-Pérez, Antonio Ruperto Jiménez-Aparicio & Gustavo Fidel Gutiérrez-López. 2011. Food Engineering Interfaces. Food Engineering Interfaces 515 534 .
Meng Wai Woo, Wan Ramli Wan Daud, Arun S. Mujumdar, Meor Zainal Meor Talib, Wu Zhong Hua & Siti Masrinda Tasirin. (2008) Comparative study of droplet drying models for CFD modelling. Chemical Engineering Research and Design 86:9, pages 1038-1048.
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Xiaoyu Yue, Jinhong Zhao, Ejuan Shi, Youqing Chen & Xiangdong Liu. (2007) Analysis of air velocity distribution in a multilayer conveyor dryer by computational fluid dynamics. Asia-Pacific Journal of Chemical Engineering 2:2, pages 108-117.
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M. J. Hanus & T. A. G. Langrish. (2007) Re-entrainment of wall deposits from a laboratory-scale spray dryer. Asia-Pacific Journal of Chemical Engineering 2:2, pages 90-107.
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