Contact angle measurement for LiBr aqueous solutions on different surface materials used in absorption systems

Asier Martinez-Urrutia, Peru Fernández de Arroiabe, Miguel Ramirez, Manex Martinez-Agirre, M. Mounir Bou-Ali

Producción científica: Contribución a una revistaArtículorevisión exhaustiva

32 Citas (Scopus)

Resumen

Wetting surface is a very important issue for the design of absorption applications and heat exchangers. The contact angle is deemed essential in wettability studies; However, LiBr aqueous solution contact angle studies are limited. This work analyses the contact angle of LiBr aqueous solution in the range of 0–55% mass fraction on different material surfaces: copper, aluminum, stainless-steel and polytetrafluoroethylene (PTFE) under atmospheric conditions. A sessile drop technique was used for measuring the contact angles, and a linear relation between solution surface tension and contact angle is observed in the tested materials. The study of three metals show hydrophilic performance (θ < 90°), whereas the PTFE shows hydrophobic performance. Additionally, the effect of the selection of the material, and consequent effect on the contact angle, on the minimum wetting rate and film thicknesses is presented under the working conditions of the absorption technologies. From the wettability point of view, the results show that using stainless-steel and aluminum leads to a slightly better performance than a copper made heat exchanger.
Idioma originalInglés
Páginas (desde-hasta)182-188
Número de páginas7
PublicaciónInternational Journal of Refrigeration
Volumen95
DOI
EstadoPublicada - nov 2018

Palabras clave

  • Contact-angle
  • Sessile-drop-test
  • Absorption technologies
  • Falling-film
  • Wetting

Project and Funding Information

  • Project ID
  • info:eu-repo/grantAgreement/EC/H2020/680738/EU/ndustrial Energy and Environment Efficiency/INDUS3ES
  • Funding Info
  • The authors would like to thank the support of the project Indus3Es: Industrial Energy_x000D_ and Environmental Efficiency funded by the Horizon 2020 framework of the European Union,_x000D_ Project No. 680738. The authors would also like to express their gratitude for the support_x000D_ of MICRO4FAB and BEROA–GO 3.0 and Research Groups (No. IT009-16).

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