Donnarumma, Dario (2014) Drying of Porous Media. The Case of Cotton Fabrics. [Tesi di dottorato]

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Item Type: Tesi di dottorato
Resource language: English
Title: Drying of Porous Media. The Case of Cotton Fabrics.
Creators:
Creators
Email
Donnarumma, Dario
dario.donnarumma@unina.it
Date: 31 March 2014
Number of Pages: 138
Institution: Università degli Studi di Napoli Federico II
Department: Ingegneria Chimica, dei Materiali e della Produzione Industriale
Scuola di dottorato: Ingegneria industriale
Dottorato: Ingegneria chimica
Ciclo di dottorato: 26
Coordinatore del Corso di dottorato:
nome
email
D'Anna, Andrea
anddanna@unina.it
Tutor:
nome
email
Guido, Stefano
UNSPECIFIED
Date: 31 March 2014
Number of Pages: 138
Keywords: cotton; CLSM; porous media; wetting; evaporation; interphase; microfluidics; capillary; micellar; surfactant;
Settori scientifico-disciplinari del MIUR: Area 09 - Ingegneria industriale e dell'informazione > ING-IND/24 - Principi di ingegneria chimica
Aree tematiche (7° programma Quadro): ENERGIA > Efficienza e risparmi energetico
Date Deposited: 10 Apr 2014 19:59
Last Modified: 29 May 2017 01:00
URI: http://www.fedoa.unina.it/id/eprint/9948

Collection description

The focus of this PhD thesis is on clothes drying in home laundry, an energy-intensive operation of high societal impact due the high associated costs and carbon footprint. The main goal of this work is to improve the basic understanding of drying of cotton fabrics by combining classical thermal analysis with microscopy techniques. In particular, the proposed approach is to regard cotton fabrics as a porous medium where water can penetrate at different spatial scales. The well-known constant rate (CRP) and falling rate (FRP) phases of the drying process were related to cotton fabric porosity and our results show that drying is faster in a cotton fabric as compared to a dish filled with water with the same area of the fabric, during the CRP. Drying rate in fabrics can be enhanced by surfactants in diluted regime, in a concentration-dependent way. These effects were correlated with an increase of the interfacial area due to a decrease of the contact angle induced by the surfactant, by a single capillary model. All the drying curves overlap in the FRP, showing negligible effects of surfactants on drying rate. Both CRP and FRP can be qualitatively explained by considering the fiber as the base element of a multi-scale porous medium. Moreover, a single capillary model is proposed to study the evaporation process.

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