摘要
为提高太阳能光热转化效率,基于太阳能驱动的界面水蒸发原理,结合粘胶纤维的形貌和性能特点,通过在垂直排列的粘胶纤维束端面构筑碳氮化钛(MXene)作为光热转化层,制备MXene/粘胶纤维束集合体太阳能界面水蒸发器,并系统分析MXene涂层数、光照强度对太阳能界面水蒸发器蒸发性能及稳定性的影响。结果表明:粘胶纤维表面的沟槽结构及其集合体垂直排列形成的毛细孔为水传输提供了有利通道;纤维束集合体端面涂覆光热转换材料MXene和增加光照强度有利于提高器件的水蒸发性能,当MXene涂层数由1层增加至5层时,其蒸发速率和蒸发效率分别从0.78 kg/(m^(2)·h)和39.4%提高至1.47 kg/(m^(2)·h)和74.4%;随着光照强度的增大,太阳能界面水蒸发器的蒸发性能也随之大幅提高,当光照强度由1 kW/m^(2)增加到5 kW/m^(2)时,其蒸发速率由1.47 kg/(m^(2)·h)提高至6.45 kg/(m^(2)·h),蒸发效率由70.6%提高至82.4%;太阳能界面水蒸发器在2 kW/m^(2)的光照强度下使用144 h后,其蒸发速率和蒸发效率仍分别高达3.31 kg/(m^(2)·h)和82.1%,与初始值相比仅降低4.1%和3.5%,具有较好的稳定性能。
Objective A sustainable supply of clean water is essential for the development of modern society,and using solar energy for desalination and sewage treatment has been considered as a promising solution to produce clean water.However,solar vapor generation technology often requires large installations and advanced infrastructure,leading to poor efficiency and high cost.In view of the above problems,this paper intends to design and develop a solar-interface water evaporator with simple structure and high efficiency,in order to capture and convert sunlight into heat and distil water from various sources into steam.Method A solar-interface water evaporator,with titanium carbonitride(MXene)as photo thermal conversion layer and viscose fiber bundles as water transport channels was designed to achieve efficient solar driven water evaporation based on the principle of solar-driven interfacial water evaporation.The thermal local performance of the solar-interface water evaporator,the effects of the number of MXene coatings and light intensity on its water evaporation performance,and the stability of the solar-interface water evaporator were investigated using the simulated solar system.A viscose fiber bundle assembly with a length of 3 cm and a diameter of 0.9 cm was used as a water transport channel,and the self-made MXene dispersion was uniformly coated on the surface of the fiber bundle assembly as a photothermal conversion layer.Moisture absorption performance and photothermal conversion performance of solar interface water evaporators were characterized by testing the core absorption performance of adhesive fiber bundle assemblies and the interface temperature of the photothermal conversion layer.The evaporation performance of solar interface water evaporators was characterized by testing water evaporation capacity,evaporation rate,and evaporation efficiency.Results Under the light intensity of 1 kW/m^(2),the temperature of the central point of the fiber bundle containing the MXene coating increased from room tempera
作者
娄辉清
上媛媛
曹先仲
徐蓓蕾
LOU Huiqing;SHANG Yuanyuan;CAO Xianzhong;XU Beiei(School of Physics,Zhengzhou University,Zhengzhou,Henan450052,China;Innovation Center of Advanced Textile Technology(Jianhu Laboratory),Shaoxing,Zhejiang312030,China;Shenma Industrial Co.,Ltd.,Pingdingshan,Henan467021,China)
出处
《纺织学报》
EI
CAS
CSCD
北大核心
2023年第10期9-15,共7页
Journal of Textile Research
基金
河南省科技攻关计划项目(212102310014)
浙江省服装工程技术研究中心开放基金项目(2021FZKF08)
河南工程学院协同育人项目(XTYR-HKJ2021047)。
关键词
粘胶纤维束
碳氮化钛
太阳能界面水蒸发器
光热转换层
水蒸发性能
viscose fiber bundle
titanium carbonitride
solar interface water evaporator
photothermal conversion layer
water evaporation performance
