UID:
almahu_9949420371602882
Umfang:
1 online resource (xvi, 196 pages)
ISBN:
9781003011811
,
1003011810
,
9781000763409
,
1000763404
,
1000763676
,
9781000763676
Serie:
Advances in drying science and technology
Inhalt:
Mass Transfer⁰́₃Driven Evaporation from Capillary Porous Media offers a comprehensive review of mass transfer⁰́₃driven drying processes in capillary porous media, including pore-scale and macro-scale experiments and models. It covers kinetics of drying of a single pore, pore-scale experiments and models, macro-scale experiments and models, and understanding of the continuum model from pore-scale studies. The book: Explains the detailed transport processes in porous media during drying. Introduces cutting-edge visualization experiments of drying in porous media. Describes the pore network models of drying in porous media. Discusses the continuum models of drying in porous media based on pore-scale studies. Points out future research opportunities. Aimed at researchers, students and practicing engineers, this work provides vital fundamental and applied information to those working in drying technology, food processes, applied energy, and mechanical and chemical engineering.
Anmerkung:
PrefaceEditor BiographyList of Contributors Chapter 1 Slow evaporation in a capillary porous medium: a State of the ArtMarc Prat1.1 Introduction1.2 Slow drying of capillary porous media1.3 Microfluidic experiments 1.4 Modelling1.5 Discussion1.6 SummaryReferencesChapter 2 Evaporationfrom straight capillary tubesRui Wu, Evangelos Tsotsas2.1 Introduction2.2 Evaporation of a straight tube of circular cross section2.3 Evaporation of a straight tube of square cross section2.4 SummaryReferencesChapter 3 Pore scale experiments on evaporation of porous mediaRui Wu3.1 Introduction3.2 Evaporation in the PDMS based microfluidic pore network without corner liquid films3.3 Evaporation in the silicon-glass based microfluidic pore network with corner liquid films3.4 Capillary instability during evaporation in the silicon-glass based microfluidic pore network 3.5 SummaryReferencesChapter 4 A mesoscopic approach for evaporation in capillary porous media: Shan Chen Lattice Boltzmann MethodDebashis Panda, Shubhani Paliwal, Githin Tom Zachariah, Supriya Bhaskaran, Evangelos Tsotsas, Abdolreza Kharaghani, Vikranth Kumar Surasani4.1 Introduction4.2 Lattice Boltzmann Method: Evaporation in Porous Media 4.3 Results and Discussion4.4 ConclusionBibliographyChapter 5 Pore network models for evaporation in porous mediaRui WuChapter 6 Continuum modelsMarc PratChapter 7 A continuum approach to the drying of small pore networksXiang Lu, Evangelos Tsotsas, Abdolreza Kharaghani
Sprache:
Englisch
Schlagwort(e):
Electronic books.
DOI:
10.1201/9781003011811
URL:
https://www.taylorfrancis.com/books/9781003011811
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