Durability of hydrophilic and antimicrobial zeolite coatings under water immersion

Durability of hydrophilic and antimicrobial zeolite coatings under water immersion

Gravity‐independent water separation within the condensing heat exchangers onboard manned spacecraft is achieved by using hydrophilic fin surfaces that promote the wetting and wicking of the condensate on the fin. It is also important for the fin surfaces to be antimicrobial to prevent the bacteria...

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Bibliographic Details
Published in:AIChE journal Vol. 52; no. 3; pp. 1157 - 1161
Main Authors: O'Neill, Cory, Beving, Derek E., Chen, Wilfred, Yan, Yushan
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc., A Wiley Company 01-03-2006
Wiley Subscription Services
American Institute of Chemical Engineers
Subjects:
antimicrobial
Applied sciences
Chemical engineering
Exact sciences and technology
gravity
Heat exchangers
Heat exchangers and evaporators
hydrophilic
Protective coatings
Spacecraft
Water
zeolite A
zeolite coating
antimicrobial
zeolite A
Wetting
Heat exchanger
gravity
hydrophilic
Bacteria
Durability
zeolite coating
Fin
Immersion
Zeolite
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Summary:Gravity‐independent water separation within the condensing heat exchangers onboard manned spacecraft is achieved by using hydrophilic fin surfaces that promote the wetting and wicking of the condensate on the fin. It is also important for the fin surfaces to be antimicrobial to prevent the bacteria growth that may thrive in the moist environment of the fin surface. For practical and economical reasons, the coating must also be durable under wet conditions. Ag‐exchanged zeolite A (Ag‐ZA) coatings have been shown to have excellent hydrophilicity and are highly antimicrobial. In this study we show that Ag‐ZA coatings are highly durable under wet conditions, maintaining their hydrophilic and antimicrobial properties even after submersion in water for 8 weeks. The durability of the hydrophilic and antimicrobial properties of Ag‐ZA coating make it a preeminent candidate for use in condensing heat exchangers onboard manned spacecraft. © 2005 American Institute of Chemical Engineers AIChE J, 2006
Bibliography:istex:8FDCFE8CDDCBA076E68EF80D76E240C79F7D9A4F
ArticleID:AIC10695
Strategic Environmental Research Program of the Department of Defense (DoD/SERDP)
ark:/67375/WNG-F9GKGV9F-0
ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:0001-1541
1547-5905
DOI:10.1002/aic.10695