基于CiteSpace的储热技术研究进展与趋势
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摘要
储热技术是利用蓄热材料储存热量然后在需要的时候释放,用以调节能源供应与能源需求在时间、空间或强度上的不匹配。该技术在太阳能热发电、工业余热回收、电子器件热管理、建筑节能等领域具有广泛的应用前景。为系统分析储热技术的发展动态,以Web of Science数据库中收录的2007—2017年"Thermal energy storage"为主题的文献为数据源,借助信息可视化软件CiteSpace对所采集的数据进行分析,绘制出储热技术国家、机构和研究人员合作图谱,展示该技术研究力量的分布与科研合作情况;利用软件共现分析得到储热技术的热点科学领域,同时利用关键词共现网络图谱和文献共被引网络图谱分析了储热技术的研究热点、研究前沿及发展趋势,指出新型多尺度复合结构储热材料和混合储热模式是未来研究的重点。
Thermal energy storage,using the heat storage material to keep the energy and release it when required,is the technology utilized for adjusting the instability and time discrepancy between supply and demand of energy. It has wide ranges of applications in various fields,like solar thermal power generation,industrial waste heat recovery,thermal management of electronics,building energy conservation,etc. In order to make a systematical analysis of the developing tendency of this technology,the literatures on subject of"Thermal energy storage"( included in Web of Science,2007—2017) have been taken as data resource and been analyzed with the visualization software Cite Space. With the help of the software,a graph of country,institution and researcher cooperation in the technology of thermal energy storage has been made to indicate the distribution of its research power and the cooperating situations of the scientific research. By using the software co-occurrence analysis,the co-occurrence graphs of research fields and keywords have been made to indicate the prevailing fields of the research and its researching hotspots respectively. Meanwhile,by analyzing the co-citation of the literatures and making its network graph,the frontiers and developing tendency of this research have been concluded,which shows that the new multi-scale thermal storage composite materials as well as the hybrid thermal energy storage systems will be the focal points of the future research.
Thermal energy storage,using the heat storage material to keep the energy and release it when required,is the technology utilized for adjusting the instability and time discrepancy between supply and demand of energy. It has wide ranges of applications in various fields,like solar thermal power generation,industrial waste heat recovery,thermal management of electronics,building energy conservation,etc. In order to make a systematical analysis of the developing tendency of this technology,the literatures on subject of"Thermal energy storage"( included in Web of Science,2007—2017) have been taken as data resource and been analyzed with the visualization software Cite Space. With the help of the software,a graph of country,institution and researcher cooperation in the technology of thermal energy storage has been made to indicate the distribution of its research power and the cooperating situations of the scientific research. By using the software co-occurrence analysis,the co-occurrence graphs of research fields and keywords have been made to indicate the prevailing fields of the research and its researching hotspots respectively. Meanwhile,by analyzing the co-citation of the literatures and making its network graph,the frontiers and developing tendency of this research have been concluded,which shows that the new multi-scale thermal storage composite materials as well as the hybrid thermal energy storage systems will be the focal points of the future research.
引文
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69 Grekova A D,Gordeeva L G,Lu Z,et al.Solar Energy Materials and Solar Cells,2018,176,273.
70 Yu N,Wang R Z,Wang L W.Progress in Energy and Combustion Science,2013,39(5),489.
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72 Jacobson M Z,Delucchi M A.Energy Policy,2011,39(3),1154.
73 Delucchi M A,Jacobson M Z.Energy Policy,2011,39(3),1170.
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75 Müller-Steinhagen H,Trieb F.Ingenia,2004,18(18),43.
76 Sheu E J,Mitsos A,Eter A A,et al.Journal of Solar Energy Enginee-ring,2012,134(4),41006.
2 Pasupathy A,Velraj R,Seeniraj R V.Renewable and Sustainable Energy Reviews,2008,12(1),39.
3 Zalba B,Marín J M,Cabeza L F,et al.Applied Thermal Engineering,2003,23(3),251.
4 Fernandez A I,Martínez M,Segarra M,et al.Solar Energy Materials and Solar Cells,2010,94(10),1723.
5 Khare S,Dell'Amico M,Knight C,et al.Solar Energy Materials and Solar Cells,2013,115,114.
6 Cabeza L F,Galindo E,Prieto C,et al.Renewable Energy,2015,83,820.
7 Cabeza L F,Solé A,Fontanet X,et al.Applied Energy,2017,185,836.
8 Xu B,Li P,Chan C.Applied Energy,2015,160,286.
9 Zhang Hongtao,Zhao Youjing,Zhang Ping,et al.Material Review A:Review Papers,2015(1),54(in Chinese).张宏韬,赵有璟,张萍,等.材料导报:综述篇,2015(1),54.
10 Merlin K,Soto J,Delaunay D,et al.Applied Energy,2016,183,491.
11 Sharif M K A,Al-Abidi A A,Mat S,et al.Renewable and Sustainable Energy Reviews,2015,42,557.
12 Heier J,Bales C,Martin V.Renewable and Sustainable Energy Reviews,2015,42,1305.
13 Zhou D,Zhao C Y,Tian Y.Applied Energy,2012,92,593.
14 De Gracia A,Cabeza L F.Energy and Buildings,2015,103,414.
15 Sarier N,Onder E.Thermochimica Acta,2012,540,7.
16 Kandasamy R,Wang X,Mujumdar A S.Applied Thermal Engineering,2007,27(17),2822.
17 Wilhelm E,Richter C,Rapp B E.Sensors and Actuators A:Physical,2018,271,303.
18 Chen C.Journal of the American Society for Information Science and Technology,2006,57(3),359.
19 Chen C.Proceedings of the National Academy of Sciences,2004,101,5303.
20 Chen C,Ibekwe-Sanjuan F,Hou J.Journal of the American Society for Information Science and Technology,2010,61(7),1386.
21 Qian G.International Journal of Life Cycle Assessment,2014,19(7),1462.
22 Lin Deming,Chen Chaomei,Liu Zeyuan.Journal of the China Society for Scientific and Technical Information,2011,30(1),76(in Chinese).林德明,陈超美,刘则渊.情报学报,2011,30(1),76.
23 Fisch M N,Guigas M,Dalenb?ck J O.Solar Energy,1998,63(6),355.
24 Schmidt T,Mangold D,Müller-Steinhagen H.Solar Energy,2004,76(1),165.
25 Vignarooban K,Xu X,Arvay A,et al.Applied Energy,2015,146,383.
26 Su Fu,Ke Ping.Journal of Academic Libraries,2017(1),11(in Chinese).苏福,柯平.大学图书馆学报,2017(1),11.
27 Li G.Renewable and Sustainable Energy Reviews,2016,53,897.
28 Kant K,Shukla A,Sharma A.Solar Energy Materials and Solar Cells,2017,172,82.
29 Pielichowska K,Pielichowski K.Progress in Materials Science,2014,65,67.
30 Derek J D S P.Science,1965,149(3683),510.
31 Garfield E.Current Contents,1994,41(10),3.
32 Zhao C Y,Zhang G H.Renewable and Sustainable Energy Reviews,2011,15(8),3813.
33 Tyagi V V,Kaushik S C,Tyagi S K,et al.Renewable and Sustainable Energy Reviews,2011,15(2),1373.
34 Mondal S.Applied Thermal Engineering,2008,28(11),1536.
35 Zhang P,Ma Z W,Wang R Z.Renewable and Sustainable Energy Reviews,2010,14(2),598.
36 Chen Z,Fang G.Renewable and Sustainable Energy Reviews,2011,15(9),4624.
37 Kenisarin M M,Kenisarina K M.Renewable and Sustainable Energy Reviews,2012,16(4),1999.
38 Regin A F,Solanki S C,Saini J S.Renewable and Sustainable Energy Reviews,2008,12(9),2438.
39 Nath R.Encapsulation of high temperature phase change materials for thermal energy storage.Master's Thesis,University of South Florida,USA,2012.
40 Nomura T,Okinaka N,Akiyama T.ISIJ International,2010,50(9),1229.
41 Fallahi A,Guldentops G,Tao M,et al.Applied Thermal Engineering,2017,127,1427.
42 Cao Q,Liu P.European Polymer Journal,2006,42(11),2931.
43 Chen C,Liu W,Wang Z,et al.Solar Energy Materials and Solar Cells,2015,134,80.
44 Sundararajan S,Samui A B,Kulkarni P S.Industrial & Engineering Chemistry Research,2017,56(49),14401.
45 Nishioka K,Suura N,Ohno K,et al.ISIJ International,2010,50(9),1240.
46 Farid M M,Khudhair A M,Razack S A K,et al.Energy Conversion and Management,2004,45(9),1597.
47 Li W,Zhang D,Zhang T,et al.Thermochimica Acta,1999,326(1),183.
48 Tokoro H,Yoshikiyo M,Imoto K,et al.Nature Communications,2015,6,7037.
49 Bugaje I M.International Journal of Energy Research,1998,21(9),759.
50 Zhang L,Zhu J,Zhou W,et al.Thermochimica Acta,2011,524(1),128.
51 Kumar A,Kulkarni P S,Samui A B.Cellulose,2014,21(1),685.
52 Wang W,Yang X,Fang Y,et al.Applied Energy,2009,86(7),1196.
53 Zhang L,Zhu J,Zhou W,et al.Energy,2012,39(1),294.
54 Tang B,Wang Y,Qiu M,et al.Solar Energy Materials and Solar Cells,2014,123,7.
55 Liu S,Yan Z,Fu L,et al.Solar Energy Materials and Solar Cells,2017,167,140.
56 Yan T,Wang R Z,Li T X,et al.Renewable and Sustainable Energy Reviews,2015,43,13.
57 Agrafiotis C,Roeb M,Schmücker M,et al.Solar Energy,2014,102,189.
58 N Tsoukpoe K E,Liu H,Le Pierrès N,et al.Renewable and Sustainable Energy Reviews,2009,13(9),2385.
59 Li T,Wang R,Kiplagat J K,et al.Energy,2013,50,454.
60 Aydin D,Casey S P,Riffat S.Renewable and Sustainable Energy Reviews,2015,41,356.
61 Pardo P,Deydier A,Anxionnaz-Minvielle Z,et al.Renewable and Sustainable Energy Reviews,2014,32,591.
62 Trausel F,de Jong A,Cuypers R.Energy Procedia,2014,48,447.
63 Scapino L,Zondag H A,Van Bael J,et al.Applied Energy,2017,190,920.
64 Deng S.Encyclopedia of Chemical Processing,2006,5,2825.
65 Wilson S T,Lok B M,Messina C A,et al.Journal of the American Chemical Society,1982,104(4),1146.
66 Lok B M,Messina C A,Patton R L,et al.Journal of the American Chemical Society,1984,106(20),6092.
67 J?nchen J,Ackermann D,Weiler E,et al.Thermochimica Acta,2005,434(1),37.
68 Henninger S K,Schmidt F P,Henning H M.Applied Thermal Enginee-ring,2010,30(13),1692.
69 Grekova A D,Gordeeva L G,Lu Z,et al.Solar Energy Materials and Solar Cells,2018,176,273.
70 Yu N,Wang R Z,Wang L W.Progress in Energy and Combustion Science,2013,39(5),489.
71 Frazzica A,Freni A.Renewable Energy,2017,110,87.
72 Jacobson M Z,Delucchi M A.Energy Policy,2011,39(3),1154.
73 Delucchi M A,Jacobson M Z.Energy Policy,2011,39(3),1170.
74 Peterseim J H,White S,Tadros A,et al.Renewable Energy,2013,57,520.
75 Müller-Steinhagen H,Trieb F.Ingenia,2004,18(18),43.
76 Sheu E J,Mitsos A,Eter A A,et al.Journal of Solar Energy Enginee-ring,2012,134(4),41006.