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Reduced Graphene Oxide/Carbon Fiber Composite Membrane for Self-floating Solar-thermal Steam Production 被引量:1
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作者 MA Aijing CHEN Yaxi +2 位作者 LIU Yang GUI Jianzhou YU Yifu 《Chemical Research in Chinese Universities》 SCIE CAS CSCD 2020年第4期699-702,共4页
Solar-thermal water evaporation has attracted increasing attention owing to the promising potential to solve the global clean water and energy crisis.But,the development of this strategy is limited by the lack of mate... Solar-thermal water evaporation has attracted increasing attention owing to the promising potential to solve the global clean water and energy crisis.But,the development of this strategy is limited by the lack of materials with high solar-thernal conversion efficiency,local heating of superficial water,easy preparation and low cost.Herein,we proposed a facile strategy to prepare a reduced graphene oxide/carbon fiber composite membrane,denoted as RGO/CF membrane.The surface of the RGO/CF membrane was highly hydrophobic,endowing the composite membrane with the self-floating ability on the water without any assistance.The light absorbance ability achieved as high as ca.98%in the wavelength range of 300-1200 nm.The steam evaporation efliciency under the illumination of3-sun was 97%,generating water steam at a rate of 4.54 kg·m^-2·h^-1.Moreover,the solar-thermal steam production rate showed high stability during successive 30 cvcle tests. 展开更多
关键词 Composite membrane Reduced graphene oxide:Carbon fiber self-floating Solar steam generation
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MXene Sediment-Based Poly(vinyl alcohol)/Sodium Alginate Aerogel Evaporator with Vertically Aligned Channels for Highly Efficient Solar Steam Generation
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作者 Tian Wang Meng Li +12 位作者 Hongxing Xu Xiao Wang Mingshu Jia Xianguang Hou Shuai Gao Qingman Liu Qihang Yang Mingwei Tian Lijun Qu Zhenhua Song Xiaohu Wu Lili Wang Xiansheng Zhang 《Nano-Micro Letters》 SCIE EI CAS CSCD 2024年第10期638-654,共17页
Solar-driven interfacial evaporation from seawater is considered an effective way to alleviate the emerging freshwater crisis because of its green and environmentally friendly characteristics.However,developing an eva... Solar-driven interfacial evaporation from seawater is considered an effective way to alleviate the emerging freshwater crisis because of its green and environmentally friendly characteristics.However,developing an evaporator with high efficiency,stability,and salt resistance remains a key challenge.MXene,with an internal photothermal conversion efficiency of 100%,has received tremendous research interest as a photothermal material.However,the process to prepare the MXene with monolayer is inefficient and generates a large amount of“waste”MXene sediments(MS).Here,MXene sediments is selected as the photothermal material,and a three-dimensional MXene sediments/poly(vinyl alcohol)/sodium alginate aerogel evaporator with vertically aligned pores by directional freezing method is innovatively designed.The vertical porous structure enables the evaporator to improve water transport,light capture,and high evaporation rate.Cotton swabs and polypropylene are used as the water channel and support,respectively,thus fabricating a self-floating evaporator.The evaporator exhibits an evaporation rate of 3.6 kg m^(-2)h^(-1)under one-sun illumination,and 18.37 kg m^(-2)of freshwater is collected in the condensation collection device after 7 h of outdoor sun irradiation.The evaporator also displays excellent oil and salt resistance.This research fully utilizes“waste”MS,enabling a self-floating evaporation device for freshwater collection. 展开更多
关键词 MXene sediments Porous structure DESALINATION self-floating
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One-Step-Installation of Offshore Wind Turbine on Large-Scale Bucket-Top-Bearing Bucket Foundation 被引量:18
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作者 丁红岩 练继建 +1 位作者 李爱东 张浦阳 《Transactions of Tianjin University》 EI CAS 2013年第3期188-194,共7页
In 2010,the first offshore wind turbine with integrated installation was established in Qidong sea area of Jiangsu Province,China,which led to the implementation phase of one-step-installation technique based on the d... In 2010,the first offshore wind turbine with integrated installation was established in Qidong sea area of Jiangsu Province,China,which led to the implementation phase of one-step-installation technique based on the design and construction of large-scale bucket-top-bearing (LSBTB) bucket foundation.The critical technique of LSBTB bucket foundation included self-floating towing,penetration with adjustment of horizontal levelness,removability and one-step-installation.The process of one-step-installation included the prefabrication of LSBTB bucket foundation in onshore construction base,installation and debugging of wind power,overall water transportation of foundation and wind power system,and installation of foundation and offshore wind turbine on the appointed sea area.The cost of one-step-installation technique was about 5 000 Yuan/kW,which was 30%-50% lower than that of the existing technique.The prefabrication of LSBTB bucket foundation took about two months.During the one-step-installation process,the installation and debugging of wind power and overall water transportation need about one to two days in sea area within 35 m depth.After the proposed technique is industrialized,the cost will be further reduced,and the installation capacity is expected to be up to 500 wind turbines per year. 展开更多
关键词 one-step-installation TECHNIQUE large-scale bucket-top-bearing BUCKET foundation self-floating towing penetration TECHNIQUE with adjustment of horizontal levelness removability TECHNIQUE construction and INSTALLATION cost
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一体式自漂浮多孔泡沫作为隔热层用于高效光热转换和太阳能脱盐 被引量:2
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作者 任丽萍 周卫 +5 位作者 王蕾 林阔 徐亚超 武佳星 谢颖 付宏刚 《Science Bulletin》 SCIE EI CAS CSCD 2023年第22期2760-2768,M0005,共10页
本文通过冷冻干燥铸造成型和高温表面氢化策略,构筑了一种自漂浮等离子体Ag/黑色TiO_(2)/碳多孔层状泡沫(Ag-BTCFs)作为高效的太阳能热集流体.这种一体式三维(3D)交联自漂浮多孔层状泡沫材料可以实现全光谱吸收(~95.45%),并有效地阻止... 本文通过冷冻干燥铸造成型和高温表面氢化策略,构筑了一种自漂浮等离子体Ag/黑色TiO_(2)/碳多孔层状泡沫(Ag-BTCFs)作为高效的太阳能热集流体.这种一体式三维(3D)交联自漂浮多孔层状泡沫材料可以实现全光谱吸收(~95.45%),并有效地阻止热量向下层水体传导.Ag-BTCFs受益于光照射下Ag的局域表面等离子体效应驱动的“热点”效应,促进了光生热电子(e^(-))和光生空穴(h^(+))在等离子体辅助半导体中的传输.此外,具有亲水性的黑色TiO_(2)可以作为水的传输介质.与层状碳泡沫的耦合不仅提高了材料的吸收率,而且促进了热电子的弛豫和集热.更重要的是,光生h~+被用来光催化降解污染物,在不影响蒸汽产生效率的情况下实现了降解污染物和淡水生产的同步进行,这种高效的新型轻质自漂浮Ag-BTCFs将在太阳能蒸汽发电和海水淡化中具有潜在的应用前景. 展开更多
关键词 Solar steam generation self-floating porous foam Heat-blocked layer Black TiO_(2) Photothermal conversion
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