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毕业论文网 > 任务书 > 材料类 > 无机非金属材料工程 > 正文

相变材料复合碳基气凝胶的制备及性能任务书

 2020-04-17 20:27:34  

1. 毕业设计(论文)的内容和要求

本论文的主要内容是对pcm碳-二氧化硅气凝胶复合材料国内外的研究现状、应用与发展进行了简要的阐述。

简述pcm碳-二氧化硅气凝胶复合材料的结构特点、溶胶-凝胶制备工艺和应用前景。

对低密度pcm碳-二氧化硅气凝胶复合材料的制备参数及其性能表征进行了研究。

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2. 参考文献

[1] 陈思明,刘益才,陈凯,辛天龙,陈丽新, 高温相变换热材料的研究进展和应用[J], 真空与低温 (2010) 125-130. [2] 崔海亭,袁修干,邢玉明, 高温相变蓄热容器的优化设计及参数分析[J], 太阳能学报 (2003) 513-517. [3] 廖敏,丁静,魏小兰,杨晓西,杨建平, 高温碳酸熔盐的制备及传热蓄热性质[J], 无机盐工业 (2008) 15-17. [4] X. Song,Y. Cai,W. Wang,X. Sun,Y. Wu,Q. Wei,Y. Hu, Thermal behavior and shape-stabilization of fatty acid eutectics/electrospun carbon nano-felts composite phase change materials enhanced by reduced graphene oxide, Sol Energ Mat Sol C. 191 (2019) 306-315. [5] M.K. Singh,R. Singh,A. Singh,D.K. Kohli,U. Deshpande,P.K. Gupta, Preparation and characterization of hydrophobic platinum-doped carbon aerogel catalyst for hydrogen isotope separation, B Mater Sci. 37 (2014) 1485-1488. [6] G. Liu,R. Yang,M. Li, Liquid adsorption of basic dye using silica aerogels with different textural properties, J Non-Cryst Solids. 356 (2010) 250-257. [7] E. Cuce,D. Harjunowibowo,P.M. Cuce, Renewable and sustainable energy saving strategies for greenhouse systems: A comprehensive review, Renew Sust Energ Rev. 64 (2016) 34-59. [8] N. Kawakami,Y. Fukumoto,T. Kinoshita,K. Suzuki,K. Inoue, Preparation of highly porous silica aerogel thin film by supercritical drying, JAPANESE JOURNAL OF APPLIED PHYSICS PART 2-LETTERS. 39 (2000) L182-L184. [9] M. Khalaj,A. Allahbakhsh,A.R. Bahramian,A. Sharif, Structural, mechanical and thermal behaviors of novolac/graphene oxide nanocomposite aerogels, J Non-Cryst Solids. 460 (2017) 19-28. [10] F. Li,L. Xie,G. Sun,F. Su,Q. Kong,Y. Cao,X. Guo,C. Chen, Structural evolution of carbon aerogel microspheres by thermal treatment for high-power supercapacitors, J Energy Chem. 27 (2018) 439-446. [11] L.E. Arteaga-Perez,O. Gomez Capiro,A.M. Delgado,S. Alejandro Martin,R. Jimenez, Elucidating the role of ammonia-based salts on the preparation of cellulose-derived carbon aerogels, Chem Eng Sci. 161 (2017) 80-91. [12] P. Zheng,P.R. Chang,X. Ma, Preparation and Characterization of Rectorite Gels, Ind Eng Chem Res. 52 (2013) 5066-5071. [13] X. Fang,P. Hao,B. Song,C. Tuan,C. Wong,Z. Yu, Form-stable phase change material embedded [14] N. Liu,M. Li,R. Fu, The gelation mechanism of carbon aerogel spheres, New Carbon Mater. 24 (2009) 67-72. [15] M. Xie,X. Wu,J. Liu,K. Zhang, In-situ synthesis and textural evolution of the novel carbonaceous SiC/mullite aerogel via polymer-derived ceramics route, Ceram Int. 43 (2017) 9896-9905. [16] D. Peng,Z. Ding,L. Zhang,Y. Fu,J. Wang,Y. Li,S. Han, Remarkable hydrogen storage properties and mechanisms of the shell-core MgH2@carbon aerogel microspheres, Int J Hydrogen Energ. 43 (2018) 3731-3740. [17] B. Szubzda,A. Szmaja,A. Halama, Influence of structure and wettability of supercapacitor electrodes carbon materials on their electrochemical properties in water and organic solutions, Electrochim Acta. 86 (2012) 255-259. [18] H. Gao,J. Wang,X. Chen,G. Wang,X. Huang,A. Li,W. Dong, Nanoconfinement effects on thermal properties of nanoporous shape-stabilized composite PCMs: A review, Nano Energy. 53 (2018) 769-797. [19] 杨小平,杨晓西,丁静,秦贯丰,蒋润花, 高温相变蓄热系统热性能分析[J], 工程热物理学报34卷第三期 (2013) 513-516. [20] 张兴祥, 耐高温相变材料微胶囊及熔纺高储热量储热调温纤维[J], 天津科技2010年第二期 (2010) 19-21.

3. 毕业设计(论文)进程安排

2018.12.17~2018.12.28 查阅文献资料 2019.2.25~2019.3.5 拟定实验方案,撰写开题报告 2019.3.1~2019.4.1 完成初步实验工作,并开展初步测试 2019.4.1~2019.5.31 进行中期检查,完成实验和测试 4.4~4.6清明假期 4.29~5.1五一假期 2019.6.1~2019.6.20 撰写毕业论文,答辩 6.7~6.9端午假期

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