Wood surface treatment techniques for enhanced solar steam generation

Wood surface treatment techniques for enhanced solar steam generation

Water vapor is vital both as an energy carrier and as an intermediary state for removing impurities from water. In nature, transpiration occurs when water is transported (against gravity) from the roots to the underside of leaves where it evaporates. Using this process, one large tree can pump and p...

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Bibliographic Details
Published in:Renewable energy 2020-02, Vol.146, p.2308-2315
Main Authors: Ghafurian, Mohammad Mustafa, Niazmand, Hamid, Ebrahimnia-Bajestan, Ehsan, Taylor, Robert A.
Format: Article
Language:eng
Subjects:
Carbonization
Micropore
Nanolayer gold coating
Solar steam generation
Wood treatment
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Summary:Water vapor is vital both as an energy carrier and as an intermediary state for removing impurities from water. In nature, transpiration occurs when water is transported (against gravity) from the roots to the underside of leaves where it evaporates. Using this process, one large tree can pump and purify 400 L of water each day. Based on trunk cross-sectional area, this corresponds to a water flux range of ∼100–1000 kg/m2day, but based on evaporation area it only corresponds to a rate of ∼0.1 kg/m2day. Compared to industrial mechanisms of producing water vapor (i.e. typical thermal-driven systems have a flux of ∼4000 kg/m2day), natural wood has a relatively low flux. In an effort to boost the flux of sustainable, natural wood, we investigated wood surface modifications, laser carbonization and deposition of gold nanolayers, which achieved an instantaneous evaporation rate of ∼4 kg/m2h—under 3 kW/m2 light intensity, exceeding all previous studies of synthetic materials (including 3.8 kg/m2h reported by Zhou et al. in a 2016 Nature Photonics article) for solar steam generation applications. The cost analysis of different natural and synthetic material-based techniques for solar steam generation indicated that the carbonization and laser treatments are very cost-effective and even the gold coating was comparable to previously reported synthetic materials. Based on these results, we suggest that natural, surface-modified poplar wood could represent a viable alternative to synthetic materials for liquid/vapor separation. •Treated wood samples as evaporators were tested with a solar simulator (1–3 Suns).•Poplar wood sample of 5 mm length had the best capillary action.•Laser treatment was reported as a fast and accurate way of carbonizing wood surface.•Gold nanolayer coating and carbonized wood surfaces showed high solar absorption.•Combination method led to a record of 4.02 kg/m2 h evaporation rate at 3 Suns.
ISSN:0960-1481
1879-0682