Journal of Cleaner Production, ( ISI ), Volume (280), Year (2021-1) , Pages (124261-10)

Title : ( Low-cost zinc-oxide nanoparticles for solar-powered steam production: Superficial and volumetric approaches )

Authors: mohammad mustafa ghafoorian , Fateme Tavakoli dastjerd , ali afsharian , faraz rahimpouresfahani , Hamid Niazmand , Hadi Behzadnia , Somchai Wongwises , Omid Mahian ,

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Abstract

In this paper, a new cost-effective method has been developed to utilize solar energy for steam generation. For the first time, the delignified wood was chosen as a self-regenerating substrate coated with Fe/Pd bimetallic nanoparticles (NPs) as either single or double-layer solar photoabsorbers. The results revealed that in the case of single-layer, the optimum wood thickness, the thickness at which maximum evaporation rate and minimum heat loss occur, is 10 and 5 mm for the deionized water and seawater, respectively. Under the radiation of 3 sun (3 kW m−2), the evaporation efficiency was enhanced up to 103% using the wood with a thickness of 5 mm coated with Fe/Pd NPs compared to the case in which evaporation happens from the seawater surface without any absorber on the surface (conventional case). In order to increase the evaporation rate, a double-layer substrate was utilized. The lower layer was composed of either wood or polystyrene foam with a thickness of 5 mm while the upper layer was composed of wood with 5 mm thickness coated with Fe/Pd NPs. The results showed 126% and 167% enhancement in evaporation efficiency for Fe/Pd W5W5 (wood with a thickness of 5 mm coated with nanoparticles in the upper layer, and wood with a thickness of 5 mm in the lower layer) and Fe/Pd W5F5 (wood with a thickness of 5 mm coated with nanoparticles in the upper layer, and foam with a thickness of 5 mm in the lower layer), respectively, compared to that of the seawater. Moreover, the economic analysis indicated that using two-layer photoabsorber (Fe/Pd W5F5) is an affordable technique for solar steam generation compared to some previously reported methods in the literature.

Keywords

iron/palladium bimetallic nanoparticles Delignified wood Seawater Solar steam
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@article{paperid:1081630,
author = {Ghafoorian, Mohammad Mustafa and Tavakoli Dastjerd, Fateme and Afsharian, Ali and Rahimpouresfahani, Faraz and Niazmand, Hamid and Behzadnia, Hadi and Somchai Wongwises and Omid Mahian},
title = {Low-cost zinc-oxide nanoparticles for solar-powered steam production: Superficial and volumetric approaches},
journal = {Journal of Cleaner Production},
year = {2021},
volume = {280},
month = {January},
issn = {0959-6526},
pages = {124261--10},
numpages = {-124251},
keywords = {iron/palladium bimetallic nanoparticles Delignified wood Seawater Solar steam},
}

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%0 Journal Article
%T Low-cost zinc-oxide nanoparticles for solar-powered steam production: Superficial and volumetric approaches
%A Ghafoorian, Mohammad Mustafa
%A Tavakoli Dastjerd, Fateme
%A Afsharian, Ali
%A Rahimpouresfahani, Faraz
%A Niazmand, Hamid
%A Behzadnia, Hadi
%A Somchai Wongwises
%A Omid Mahian
%J Journal of Cleaner Production
%@ 0959-6526
%D 2021

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