Journal
ACS APPLIED MATERIALS & INTERFACES
Volume 14, Issue 1, Pages 668-676Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsami.1c17534
Keywords
evaporator; solar water evaporation; freshwater production; salt collection; sponge
Funding
- Open Sharing Fund for the Large-scale Instruments and Equipments of China University of Mining and Technology (CUMT) [DYGX-2021-006]
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This study introduces the use of carbon black polyvinyl alcohol sponge for solar water evaporation to address freshwater scarcity, achieving high efficiency evaporation and salt collection. The experimental results show that the evaporation achieved optimal results when using carbon black at a concentration of 1 g L-1.
Solar water evaporation is universally considered as an effective method to alleviate the freshwater shortage worldwide. A series of three-dimensional, salt-resistant evaporators have been brought out to improve the evaporation performance. However, little attention was paid to the collection of salt from seawater and high salinity brine. In this work, a carbon black polyvinyl alcohol (PVA) sponge was prepared to harvest light using a physical adsorption method to load carbon black on the PVA sponge. The experimental results showed that optimal light absorption (97.8%) and evaporation rate (1.60 kg m(-2) h(-1)) were achieved when the carbon black PVA sponge was produced at a carbon black concentration of 1 g L-1. Moreover, we stacked PVA sponges beneath the carbon black PVA sponge to construct a non-photothermal evaporation area. It was seen that the evaporator with an eight-layer PVA sponge had an excellent evaporation rate as high as 2.35 kg m(-2) h(-1). In addition, the salt-collecting paper, all-black printed by a laser printer, was inserted between the stacked PVA sponges for salt collection, and the eight-layer PVA sponge evaporator with the salt- collecting paper at the fourth floor was tested in a 2 h desalination experiment. The outcome indicated that a square meter of this evaporator can produce about 7.03 L of freshwater and 206 g of salt per day from 10 wt % NaCl solution. As a result, the solar evaporator developed in this work is capable of collecting salt and maintaining a high evaporation rate, which is of great competence in the fields of freshwater production and salt collection.
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