RuO2−MXene nanocomposite coated on bio-degradable loofah sponge for enhanced rate of evaporation in interfacial solar desalination

Farabi, S.N. and Habib, K. and Mim, M. and Zaed, M.A. and Sopian, K. and Saidur, R. (2024) RuO2−MXene nanocomposite coated on bio-degradable loofah sponge for enhanced rate of evaporation in interfacial solar desalination. Results in Engineering, 24: 103450. ISSN 2590-1230

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Abstract

Worldwide pure drinkable and usable water demand is increasing such as in the regions of Middle East, North Africa, and South Asia majority of the population are facing extreme water scarcity. Among numerous types of solar desalination technologies, interfacial solar steam generation (ISSG) has the potential practical applications on wastewater treatments, power generation, sterilization, and soil remediation beyond the application of only on desalination. In this research, MXene@RuO2 nanocomposite coated on bio-degradable luffa sponge is harnessed where the synthesis of MXene-RuO2@LS is done hydrothermally. As ruthenium oxide (RuO2) is a metal oxide with having the capability of ensuring effective surface area by preventing the restacking of MXene which happens due to their inherently high interfacial van der Waals interactions and surface energy. Bio-degradable luffa sponge is the best example of an evaporator with large pore spaces and rigid structure. As a result, the novel MXene-RuO2@LS absorber exhibited the rate of evaporation about 1.5 Kgm−2h−1 under 1 sun illumination for about 1 h. Furthermore, the prepared sample achieved the total energy consumption of 90.85 % with total heat loss of only 9.15 %. UV–Vis characterization was performed with improved absorptivity of 1.2, enhancement of transmittance by FTIR analysis of about 95 %, XRD analysis, SEM image analysis and water contact angle are evaluated as well. In addition, the collected desalinated water is tested where noticeable reduction of major ion concentrations and salinity achieved. All these enhanced results indicate the practical application of interfacial solar desalination.

Item Type:
Journal Article
Journal or Publication Title:
Results in Engineering
Subjects:
?? bio-degradablehydrothermallynanocompositerestackingbacteriophagesdeionized watersoil conservationwastewater treatmentwater filtrationmiddle eastnorth africaruo 2solar desalinationsouth asiawater demandwater scarcitydesalination ??
ID Code:
226032
Deposited By:
Deposited On:
29 Nov 2024 10:05
Refereed?:
Yes
Published?:
Published
Last Modified:
29 Nov 2024 10:05