蒸发
蒸发器
期限(时间)
排水
材料科学
环境科学
化学工程
工程类
热力学
生态学
机械工程
物理
生物
量子力学
热交换器
作者
Zexiang Zhao,Junqi Li,Fan Wang,Puxin Tan,Lu Wang,Bo Wang,Jingjing Jin,Xiaoxue Wang,Wenhe Zhang,Chengbing Wang
标识
DOI:10.1016/j.jechem.2025.01.024
摘要
This work introduces a double-layer arch drainage-induced hydrogel evaporator , which realizes efficient and long-term stable evaporation. Hydrogel has developed into a very important platform in solar interface evaporator. However, the current hydrogel evaporators are usually three-dimensional evaporators, which will consume a lot of raw materials. Thus, a new two-dimensional hydrogel evaporator is urgently needed to alleviate this problem. Here, a double layer hydrogel evaporator was designed by twice vacuum filtration. Furthermore, through the arched design and the introduction of concentrated brine drainage system, the hydrogel evaporator has enhanced water transportation and tailored water transportation path. Such a unique drainage evaporation system greatly improves the stability of the evaporator. Thereby, a good balance is established between photothermal conversion and water supply, and solar energy is utilized efficiently. It can remain stable in continuous evaporation for up to 12 h with an excellent evaporation rate of 2.70 kg m −2 h −1 under 1 sun irradiation. Meanwhile, the drainage system realized the 1.8 × 10 −10 mol m −2 s −1 diffusion flux of concentrated brine. Through one-time freeze-drying preparation, an arch-shaped drainage evaporator was used to prepare an evaporation area of more than 20 cm 2 . With the self-made condensate collecting device in outdoor environment, the fresh water yield reaches 7.5 L m −2 d −1 . This provides a new scheme for building a new hydrogel evaporator and solving the fresh water crisis.
科研通智能强力驱动
Strongly Powered by AbleSci AI