Research progress in preparation and property of expanded graphite-based phase change energy storage material

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  • School of Architectural and Surveying & Mapping Engineering,Jiangxi University of Science and Technology,Ganzhou 341000

Received date: 2019-09-18

  Revised date: 2020-09-10

  Online published: 2021-01-27

Abstract

Phase change energy storage materials have poor thermal conductivity,weak adsorption performance and so on.Expanded graphite is a new kind of carbon-containing material.It can be used as a carrier to greatly improve the thermal conductivity and adsorption of phase change energy storage materials.The preparation methods of expanded graphite were introduced,and compared and analyzed their advantages and disadvantages.The research progress of expanded graphite based phase change energy storage materials was reviewed and prospected the future research direction.

Cite this article

Wang Linya, Fei Hua, Du Wenqing, Gu Qingjun, Liu Yulan, Wang Yan . Research progress in preparation and property of expanded graphite-based phase change energy storage material[J]. New Chemical Materials, 2021 , 49(1) : 14 -17 . DOI: 10.19817/j.cnki.issn 1006-3536.2021.01.004

References

[1] 杨茹,万勇,杨懿政,魏超.有机相变材料在建筑节能中的应用[J].材料导报,2015,29(S1):136-140.
[2] Nazarov E K,Nikitin A T,Ponomarev-Stepnoy N N,et al.Problems of attracting nuclear energy resources in order to provide economical and rational consumption of fossil fuels[J].International Journal of Hydrogen Energy,1990,15(1):45-54.
[3] Buhsmer K,Nelson H,Wayman A,et al.Industrial strategies for improving energy efficiency and reducing greenhouse gas emissions:Examples from the Climate Wise program[C]//Proceedings of the 1998 ACEEE Summer Study on Energy Efficiency in Industry,California,USA,1998.
[4] 林道光.相变蓄能材料在建筑节能领域的应用研究[J].建筑节能,2016(9):45-49.
[5] Hasan A,Sayigh A A.Some fatty acids as phase-change thermal energy storage materials[J].Renewable Energy,1994,4(1):69-76.
[6] Yuan Y,Zhang N,Tao W,et al.Fatty acids as phase change materials:A review[J].Renewable and Sustainable Energy Reviews,2014,29:482-498.
[7] Sharma A,Tyagi V V,Chen C R,et al.Review on thermal energy storage with phase change materials and applications[J].Renewable & Sustainable Energy Reviews,2009,13(2):318-345.
[8] 张天驰,俞海云,冒爱琴,等.有机相变储能材料导热增强方法研究进展[J].过程工程学报,2017,17(1):201-208.
[9] 孙凯,晏凤梅,张步宁,等.膨胀石墨/石蜡复合相变储能材料的制备与性能研究[J].化工新型材料,2012,40(8):148-150.
[10] Krawczyk P,Skowroński J M.Modification of expanded graphite resulting in enhancement of electrochemical activity in the process of phenol oxidation[J].Journal of Applied Electrochemistry,2010,40(1):91-98.
[11] Paszkiewicz,Szymczyk,Spitalsky,et al.Electrical conductivity of poly(ethylene terephthalate)/expanded graphite nanocomposites prepared by in situ polymerization[J].Journal of Polymer Science Part B:Polymer Physics,2012,50(23):1645-1652.
[12] Liu L L,Ding H X.Study on preparation and inoxidizability of sulfurfree expandable graphite[C].International Conference on Materials for Renewable Energy & Environment.IEEE,2011.
[13] 郜攀,张连红,单晓宇.膨胀石墨制备方法的研究进展[J].合成化学,2016,24(9):832-836.
[14] 秦玉春,王海涛.可膨胀石墨的制备[J].炭素技术,2002(3):21-23.
[15] Liu Chengbao,Chen Zhigang,Chen Hong,et al.Preparation of expanded graphite-based composites by one step impregnation[J].2011,26(2):253-256.
[16] 涂文懋,邹琴,潘群,等.无硫高膨胀倍数可膨胀石墨的制备研究[J].武汉理工大学学报,2012,34(4):72-75.
[17] Dedov A V.Sorption properties of thermally expanded graphite[J].Chemistry and Technology of Fuels and Oils,2001,37(2):134-135.
[18] Chen Y P,Li S Y,Luo R Y,et al.Optimization of initial redox potential in the preparation of expandable graphite by chemical oxidation[J].Carbon,2014,70:320.
[19] 邵景景,朱鹏,李成林.用细鳞片石墨制备无硫可膨胀石墨[J].矿产综合利用,2014(2):50-53.
[20] 赵凤莉.高端可膨胀石墨制备取得突破[J].化工管理,2015(1):54-55.
[21] 徐众,万书权,韩洪波,等.天然鳞片石墨制备可膨胀石墨的工艺研究[J].无机盐工业,2016,48(5):30-34.
[22] Wang Z D,Inagaki M.Intercalation of FeCl3 into graphite films in molten salts[J].Synthetic Metals,1991,44(2):165-176.
[23] Terence M C,Silva,Ederson Esteves,et al.Electrochemically exfoliated graphene[J].Journal of Nano Research,2014,29:29-33.
[24] Li H,Cao X,Han X,et al.Electrochemical properties of expanded graphite prepared by electrochemical method for Na-ion batteries[J].Journal of Functional Materials,2016,47(12):12162-12168.
[25] 刘定福,梁基照,戈明亮.高倍率无硫低温可膨胀石墨的电化学法制备[J].华南理工大学学报:自然科学版,2014,42(10):50-56.
[26] 周国江,冯晓彤,张伟君.电化学法制备无硫可膨胀石墨的实验研究[J].黑龙江科技大学学报,2015,25(3):247-250;255.
[27] 李欢,曹晓燕,韩晓琪,等.钠离子电池用膨胀石墨的电化学法制备及性能探究[J].功能材料,2016,47(12):12162-12168.
[28] 赖奇,李玉峰,王章勇,等.微波法制备膨胀石墨的研究[J].化工装备技术,2008,29(1):75-76.
[29] 刘蓉蓉,茅靳丰,侯普民.微波法制备膨胀石墨影响因素分析[J].广东化工,2017,44(11):32-33;38.
[30] 高野.微波法膨胀石墨的制备及其对油类污染物吸附性能的研究[J].当代化工,2018,47(12):75-77;81.
[31] 赖奇.微波膨胀对石墨性能的影响[J].非金属矿,2009(3):33-34.
[32] 张鹏国,黄火根.膨胀石墨的化学氧化制备工艺优化[J].炭素技术,2015,34(5):22-25.
[33] 沈杰.膨胀石墨的制备及其表征[J].河北冶金,2015(10):21-28.
[34] Li Yuefeng,Dong Z.Study on high-temperature phase change composites of NaNO3-LiNO3/expanded graphite by saturated water solution method[J].Journal of Functional Materials,2013,44(10):1451-1456.
[35] 黄雪,崔英德,尹国强,冯光炷,吴梓敏.月桂酸-膨胀石墨复合相变材料的制备及性能[J].化工学报,2015,66(S1):370-374.
[36] Xiao X,Zhang P,Meng Z N,et al.Thermal conductivity of eutectic nitrates and nitrates/expanded graphite composite as phase change materials[J].J Nanosci Nanotechnol,2015,15(4):3135-3142.
[37] Raza G,Shi Y,Deng Y.Expanded graphite as thermal conductivity enhancer for paraffin wax being used in thermal energy storage systems[C]//2016 13th International Bhurban Conference on Applied,Islamabad,Pakistan.IEEE,2016.
[38] 蒋自鹏,铁生年.膨胀石墨/芒硝复合定形相变材料制备及性能研究[J].材料导报,2016,30(12):55-60.
[39] 张素凌,方玉堂,汪双凤.SA-AC/膨胀石墨的制备及性能研究[J].工程热物理学报,2017,38(12):2691-2696.
[40] Karaipekli A,Sari A,Kaygusuz K.Thermal conductivity improvement of stearic acid using expanded graphite and carbon fiber for energy storage applications[J].Renewable Energy,2007,32(13):2201-2210.
[41] Shou Q L,Cheng J P,Fang J H,et al.Thermal conductivity of poly vinylidene fluoride composites filled with expanded graphite and carbon nanotubes[J].Journal of Applied Polymer Science,2012,127(3):1697-1702.
[42] 曹乃珍,沈万慈,温诗铸,等.膨胀石墨的吸附作用[J].新型炭材料,1995(4):51-53.
[43] 李云涛,晏华,汪宏涛,等.膨胀石墨对复合相变材料性能的影响[J].后勤工程学院学报,2016,32(4):66-70.
[44] Zheng M,Lu L,Sun S,等.Endothermic properties of modified expanded graphite-based caxZny(OH)2(x+y) composite materials for heat storage[J].Open Engineering,2016,6(1):648-652.
[45] 黄雪,崔英德,尹国强,张步宁,冯光炷.癸酸-棕榈酸-硬脂酸/膨胀石墨蓄能复合相变材料的制备与热性能研究[J].材料导报,2017,31(14):52-56.
[46] 周卫兵,蔡凡凡,朱教群,等.己二酸/膨胀石墨复合相变材料性能研究[J].功能材料,2014,45(15):15075-15079.
[47] Tang Y,Di S,Xiang H,et al.Synthesis and thermal properties of the MA/HDPE composites with nano-additives as form-stable PCM with improved thermal conductivity[J].Applied Energy,2016,180:116-129.
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