1. 毕业设计(论文)的内容和要求
随着全球化环境污染和能源危机的日益加剧,开发、利用清洁可再生发电技术,降低碳排放量已成为当今世界社会发展趋势并且具有重要的战略意义。
本毕业设计课题紧密围绕此宗旨开展工作,研究基于微流控技术的压力驱动动电发电机理及应用平台。
主要研究内容包括:(1)探索发现适用于压力驱动动电发电过程的先进高效纳米膜材料;(2)基于上述纳米膜材料设计搭建压力驱动动电发电应用实验平台,实现宏观发电过程;(3)分析研究不同溶液酸碱度、溶液浓度、溶液盐度梯度以及纳米薄膜结构对盐差能驱动扩散-渗透过程发电特性的影响规律。
2. 参考文献
[1] 孙志峰,国内外海洋能利用技术发展现状,2015年深海能源大会,中国海南海口,2015:8[2] Siria Alessandro, Poncharal Philippe, Biance Anne-Laure, Fulcrand Rmy, Blase Xavier, Purcell Stephen T., Bocquet Lydric, Giant Osmotic Energy Conversion Measured in a Single Transmembrane Boron Nitride Nanotube, Nature, 2013, 494: 455[3] Feng Jiandong, Graf Michael, Liu Ke, Ovchinnikov Dmitry, Dumcenco Dumitru, Heiranian Mohammad, Nandigana Vishal, Aluru Narayana R., Kis Andras, Radenovic Aleksandra, Single-layer MoS2 Nanopores as Nanopower Generators, Nature, 2016, 536: 197[4] Walker Michael I., Ubych Krystian, Saraswat Vivek, Chalklen Edward A., Braeuninger-Weimer Philipp, Caneva Sabina, Weatherup Robert S., Hofmann Stephan, Keyser Ulrich F., Extrinsic Cation Selectivity of 2D Membranes, ACS Nano, 2017, 11(2): 1340-1346[5] Hon Kar Cherng, Zhao Cunlu, Yang Chun, Low Seow Chay, A Method of Producing Electrokinetic Power through Forward Osmosis, Applied Physics Letters, 2012, 101(14): 143902[6] Jiao Yanmei, Yang Chun, Kang Yuejun, Energy Conversion from Salinity Gradients by Forward OsmosisElectrokinetics, The Journal of Physical Chemistry C, 2014, 118(20): 10574-10583[7] Jiao Yanmei, Kang Yuejun, Yang Chun, Encyclopedia of Microfluidics and Nanofluidics (Osmosis and Its Applications), Springer New York, 5141 words, 2015[8] Jiao Yanmei, Zhao Cunlu, Kang Yuejun, Yang Chun, Microfluidics-Based Fundamental Characterization of External Concentration Polarization in Forward Osmosis, Microfluidics and Nanofluidics, 2019, 23(3): 36[9] Masliyah Jacob H., Bhattacharjee Subir, Electrokinetic and Colloid Transport Phenomena, John Wiley Sons, 2006
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