碳化稻壳/聚吡咯Janus结构光热蒸发器的制备及抗污染性能

doi:10.7503/cjcu20250019

高等学校化学学报

碳化稻壳/聚吡咯Janus结构光热蒸发器的制备及抗污染性能

王镇玉,方伟,赵雷,陈辉,王大珩,何漩,杜星,李薇馨

武汉科技大学

收稿日期:2025-01-17 修回日期:2025-04-05 网络首发:2025-04-30 发布日期:2025-04-30
通讯作者: 方伟 E-mail:fangwei@wust.edu.cn
基金资助:
国家自然科学基金（22105151，52305211），湖北省重点研究计划（2022BAA094），湖北省自然科学基金（2024AFB836，2023AFB626），武汉市知识创新工程（2022010801010306）、绿色化学工程过程教育部重点实验室开放项目（GCP2022003）、武汉市青年科技昭阳计划（whkx202203）、武汉科技大学 “十四五 ”湖北省优势特色学科（群）项目（2023A0305）资助

Preparation and anti-pollution properties of carbonized rice husk/polypyrrole Janus solar evaporator

WANG Zhenyu，FANG Wei， ZHAO Lei , CHEN Hui，WANG Daheng, HE Xuan，DU Xing， LI Weixin

Wuhan University of Science & Technology

Received:2025-01-17 Revised:2025-04-05 Online First:2025-04-30 Published:2025-04-30
Contact: Wei FANG E-mail:fangwei@wust.edu.cn
Supported by:
supported by the National Natural Science Foundation of China (Nos.22105151, 52305211), the Key Research Program of Hubei Province (No.2022BAA094), the Natural Science Foundation of Hubei Province (Nos.2024AFB836, 2023AFB626), the Knowledge Innovation Project of Wuhan, China (No.2022010801010306), the Open Project of Key Laboratory of Green Chemical Engineering Process of Ministry of Education (No.GCP2022003), the Youth Science and Technology Zhaoyang Program of Wuhan (No.whkx202203), and “The 14th Five Year Plan” Hubei Provincial advantaged characteristics disciplines (groups) project of Wuhan University of Science and technology (No.2023A0305)

摘要/Abstract

摘要： 利用太阳能驱动的光热蒸发器进行海水淡化和污水处理是缓解水资源短缺的有效途径之一，但也存在盐分和污染物在蒸发器中大量沉积的问题，影响器件的循环蒸发性能。本文采用简单的聚氨酯发泡和表面浸渍处理技术制备了可用于高效太阳能海水淡化和污水提纯的3D Janus结构蒸发器，可在保证高效水蒸发的同时有效避免蒸发器的污染沉积问题。首先，采用聚氨酯复合碳化稻壳粉末制备了具有三维多孔结构的泡沫基体，聚氨酯骨架赋予泡沫体具有高的强度和韧性，碳化稻壳的引入也使基体具有良好的光吸收性能和亲水性；进而，在泡沫基体上层修饰疏水性聚吡咯构建上层疏水/下层亲水的不对称润湿性Janus结构蒸发器，这种结构在保证下层充分水传输的同时，限制了盐分和污染物在蒸发器表面的积累，表现出良好的光热水蒸发性能和优异的抗污染沉积性能，其在1 kW m-2的太阳光照射下具有1.33 kg m-2 h-1的最优盐水蒸发效率和1.29 kg m-2 h-1的污水蒸发效率，且展现出良好的可循环性能。此外，有机聚氨酯网络的引入还使复合蒸发器具备优异的结构稳定性，可任意制作、裁剪成各种尺寸和形态，具备大规模应用潜力。

关键词: 碳化稻壳, 聚吡咯, Janus结构, 光热蒸发器, 抗污染性能

Abstract: Harvesting clean water from seawater and wastewater based on solar-driven evaporators is emerging as one of the most promising way to alleviate the shortage of water resource today. However, it also faces a typical defect of massive deposition of salts and pollutants in the functional evaporator, which generally influences the cyclic evaporation performance of the device. To address this problem, a 3D Janus solar evaporator that with functions of solar desalination and wastewater purification was fabricated in this work by employing simple polyurethane foaming and surface impregnation techniques, which generally shows high-efficiency water evaporation and good performance on hindering the deposition of salt and pollution in the evaporator. To gain a standard matrix, a featured foam with 3D porous structure was first prepared by combining polyurethane foam and carbonized rice husk powders, in which the polyurethane frameworks can provide high strength and toughness while carbonized rice husk logically enables properties of high solar absorption and good hydrophilicity. Then, the hydrophobic polypyrrole was introduced in the upper layer of this foam matrix to construct a Janus solar evaporator with asymmetric wettability while the upper layer shows hydrophobicity and lower layer allows hydrophilicity. The featured structure ensures this evaporator sufficient water transmission in the lower layer and simultaneously endows a function on limiting the accumulation of salts and pollutants on evaporator surface, Ascribed to the as-mentioned points, the Janus evaporator has exhibited good evaporation performance and excellent anti-pollution properties, which demonstrates a maximum brine evaporation rate of 1.33 kg m-2 h-1 and wastewater evaporation rate of 1.29 kg m-2 h-1 under solar irradiation of 1 kW m-2, combining with good cycle stability. In addition, the introduction of organic polyurethane networks also endow the Janus evaporator with excellent structural stability, which can be fabricated and tailored to various sizes and shapes for large-scale application.

Key words: Carbonized rice husk, Polypyrrole, Janus structure, Solar-driven evaporator, Anti-pollution property

中图分类号:

O643

TrendMD:

王镇玉方伟赵雷陈辉王大珩何漩杜星李薇馨. 碳化稻壳/聚吡咯Janus结构光热蒸发器的制备及抗污染性能. 高等学校化学学报, doi: 10.7503/cjcu20250019.

WANG Zhenyu, FANG Wei, ZHAO Lei , CHEN Hui, WANG Daheng, HE Xuan, DU Xing, LI Weixin. Preparation and anti-pollution properties of carbonized rice husk/polypyrrole Janus solar evaporator. Chem. J. Chinese Universities, doi: 10.7503/cjcu20250019.

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碳化稻壳/聚吡咯Janus结构光热蒸发器的制备及抗污染性能

Preparation and anti-pollution properties of carbonized rice husk/polypyrrole Janus solar evaporator

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