气凝胶
材料科学
蒸发
蒸发器
水运
太阳能
纳米技术
蒸腾作用
化学工程
工艺工程
环境科学
环境工程
化学
水流
热交换器
机械工程
气象学
物理
工程类
生物
光合作用
生物化学
生态学
作者
Yuxin Zhang,Xue Guo,Shiqin Liao,Dingsheng Wu,Pengfei Lv,Qufu Weı
标识
DOI:10.1016/j.jece.2022.107934
摘要
Solar-driven evaporation has been recognized as a great candidate for freshwater production and has received growing interest as a practical approach to cope with global water scarcity and energy crisis. However, evaporation design with low heat loss, high photothermal conversion and sustainable water supply is still challenging for practical application. In this work, inspired by the transpiration of plants, we reported a high photothermal chitosan (CS)/cellulose nanofiber (CNF) based aerogel evaporator with a hierarchical light-absorbing structure by introducing PPy cross-linked network as light-absorber, which realize the synergistic integration of light absorption, heat location and water transportation. The integration of microstructure for light-absorbing and macroporous structure inside aerogel leads to strong water transportation via capillary action and vapor escape. Moreover, the hierarchical porous structure contributes to the low sunlight reflection (under 10%). Interestingly, the integrated evaporation system not only shows high efficiency (94.3%) and evaporation rate (1.67 kg m −2 h −1 ) but also achieves satisfactorily self-disinfection. We believed that this work could provide new insights into the development of solar-driven low-energy water purification/harvesting and sustainable cleaner production. • A hierarchical aerogel evaporatorwere prepared through constructing TA crosslinked PPy networked. • The multi-scale structure synergistic strategy is applied to realize an effective evaporation. • The evaporation device achieves a synergistic integration of light absorption, heat location and water transportation. • The evaporator can achieve an efficiency (94.3%), evaporation rate (1.67 kg m −2 h −1 ) and self-disinfection.
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