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Drying Technology
An International Journal
Volume 23, 2005 - Issue 9-11
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Original Articles

Pore-Level Modeling of Isothermal Drying of Pore Networks Accounting for Evaporation, Viscous Flow, and Shrinking

Luis A. Segura Chemical Engineering Department and Surface Analysis Laboratory (ASIF), University of Concepción, Concepción, Chile
&
Pedro G. Toledo Chemical Engineering Department and Surface Analysis Laboratory (ASIF), University of Concepción, Concepción, ChileCorrespondence[email protected]
Pages 2007-2019 | Published online: 06 Feb 2007

Citations (27)

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Yi-Hsuan Shih, Shao-Yiu Hsu, Qun-Zhan Huang, Krzysztof Lamorski, Ming-Che Hu, Chia-Wen Tsao, Cezary Sławiński & Nima Shokri. (2022) Euler characteristic during drying of porous media. Drying Technology 40:4, pages 781-795.
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M. Thomik, S. Gruber, P. Foerst, E. Tsotsas & N. Vorhauer-Huget. (2022) Determination of 3D pore network structure of freeze-dried maltodextrin. Drying Technology 40:4, pages 748-766.
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Zhenyu Xu & Krishna M. Pillai. (2021) A pore-network study on the factors influencing the isothermal drying of single- and dual-scale porous media. Drying Technology 39:10, pages 1294-1313.
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Yuejin Yuan, Libin Tan, Zhe Zhao, Yingying Xu, Yu Zhao & Yueding Yuan. (2016) Multiscale and multilayer structural modeling and simulation on drying of grain packing porous media. Drying Technology 34:14, pages 1664-1676.
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LuisA. Segura, GuillermoM. Badillo & Odilio Alves-Filho. (2014) Microstructural Changes of Apples (Granny Smith) During Drying: Visual Microstructural Changes and Possible Explanation from Capillary Pressure Data. Drying Technology 32:14, pages 1692-1698.
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Bo Xiao, Jian Chang, Xiaoli Huang & Xiangdong Liu. (2014) A Moisture Transfer Model for Isothermal Drying of Plant Cellular Materials Based on the Pore Network Approach. Drying Technology 32:9, pages 1071-1081.
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N. Vorhauer, Q.T. Tran, T. Metzger, E. Tsotsas & M. Prat. (2013) Experimental Investigation of Drying in a Model Porous Medium: Influence of Thermal Gradients. Drying Technology 31:8, pages 920-929.
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Xiaoli Huang, Tingting Qi, Zhenhua Wang, Deyong Yang & Xiangdong Liu. (2012) A Moisture Transmembrane Transfer Model for Pore Network Simulation of Plant Materials Drying. Drying Technology 30:15, pages 1742-1749.
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FranciscoA. SanMartin, JoãoB. Laurindo & LuisA. Segura. (2011) Pore-Scale Simulation of Drying of a Porous Media Saturated with a Sucrose Solution. Drying Technology 29:8, pages 873-887.
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A. G. Yiotis, I. N. Tsimpanogiannis & A. K. Stubos. (2010) Fractal Characteristics and Scaling of the Drying Front in Porous Media: A Pore Network Study. Drying Technology 28:8, pages 981-990.
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C. A. Oyarzun & L. A. Segura. (2009) Design and Construction of Glass Micromodels for the Study of Moisture Transport in Softwoods. Drying Technology 27:1, pages 14-29.
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ArunS. Mujumdar & Wu Zhonghua. (2007) Thermal Drying Technologies—Cost-Effective Innovation Aided by Mathematical Modeling Approach. Drying Technology 26:1, pages 145-153.
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LuisA. Segura. (2007) Modeling at Pore-Scale Isothermal Drying of Porous Materials: Liquid and Vapor Diffusivity. Drying Technology 25:10, pages 1677-1686.
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Articles from other publishers (14)

Gerson E. Valenzuela, Roberto E. Rozas & Pedro G. Toledo. (2017) Molecular Dynamics Simulation of Nanoforces between Substrates Mediated by Liquid Bridges: Controlling Separation and Force Fluctuations. The Journal of Physical Chemistry C 121:46, pages 25986-25993.
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Gerson E. Valenzuela, Jorge H. Saavedra, Roberto E. Rozas & Pedro G. Toledo. (2016) Force exerted by a nanoscale capillary water bridge between two planar substrates. Physical Chemistry Chemical Physics 18:16, pages 11176-11183.
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G. R. Quezada, P. G. Toledo, J. H. Saavedra & R. E. Rozas. (2015) Generation of Spatially Correlated Network Models of Porous Media. Transport in Porous Media 111:2, pages 499-515.
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Yuan Yuejin, Zhao Zhe, Nie Junnan & Xu Yingying. (2014) Pore Network Analysis of Zone Model for Porous Media Drying. Mathematical Problems in Engineering 2014, pages 1-8.
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Yue Jin Yuan, Yue Ding Yuan, Ying Ying Xu, Ji Xian Dong & Xiang Dong Liu. (2012) Numerical and Experimental Fractal Pore Network Study on Drying of Porous Media: Numerical Simulation. Advanced Materials Research 557-559, pages 2167-2170.
Crossref
Yue Jin Yuan, Yue Ding Yuan, Ying Ying Xu, Ji Xian Dong & Xiang Dong Liu. (2012) Numerical and Experimental Fractal Pore Network Study on Drying of Porous Media: Model Building. Advanced Materials Research 557-559, pages 2159-2162.
Crossref
Ying Ying Xu, Yue Ding Yuan, Yue Jin Yuan, Xin An Dang & Xiang Dong Liu. (2012) Numerical and Experimental Pore Network Study on Slowly Isothermal Drying of Real Porous Media. Advanced Materials Research 538-541, pages 538-541.
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Yue Jin Yuan, Yue Ding Yuan, Man Zhang, Ji Xian Dong & Xiang Dong Liu. (2011) Numerical and Experimental Pore Network Study on Drying of Grain Materials. Advanced Materials Research 291-294, pages 385-389.
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M. Prat. (2011) Pore Network Models of Drying, Contact Angle, and Film Flows. Chemical Engineering & Technology 34:7, pages 1029-1038.
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J. Chang, Y.-J. Yuan, D.-Y. Yang & X.-D. Liu. (2011) Pore Network Model and Simulation of Transport Process for Grain Drying. Chemical Engineering & Technology 34:7, pages 1049-1056.
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Abdolreza Kharaghani, Thomas Metzger & Evangelos Tsotsas. (2011) A proposal for discrete modeling of mechanical effects during drying, combining pore networks with DEM. AIChE Journal 57:4, pages 872-885.
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T. Metzger & E. Tsotsas. (2010) Network models for capillary porous media: application to drying technology. Chemie Ingenieur Technik 82:6, pages 869-879.
Crossref
V.K. Surasani, T. Metzger & E. Tsotsas. (2008) Consideration of heat transfer in pore network modelling of convective drying. International Journal of Heat and Mass Transfer 51:9-10, pages 2506-2518.
Crossref
Martin Kohout, Zdeněk Grof & František Štěpánek. (2006) Pore-scale modelling and tomographic visualisation of drying in granular media. Journal of Colloid and Interface Science 299:1, pages 342-351.
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