Browse > Article
http://dx.doi.org/10.6117/kmeps.2020.27.3.021

Trend of Packaging Technology for Floating Photovoltaics  

Choi, Su Bin (Carbon Materials Application R&D Group, Korea Institute of Industrial Technology)
Kim, Myounghun (Carbon Materials Application R&D Group, Korea Institute of Industrial Technology)
Kim, Kwang-Seok (Carbon Materials Application R&D Group, Korea Institute of Industrial Technology)
Publication Information
Journal of the Microelectronics and Packaging Society / v.27, no.3, 2020 , pp. 21-27 More about this Journal
Abstract
The importance of floating photovoltaic systems has recently been emerging to address some issues arising from the installation of conventional ground-mounted photovoltaics. Floating photovoltaics have a few advantages such as cutting down land usage, reducing water evaporation or creating algae. Though there is still necessity to supplement with technical issues: mechanical stability, reliability and long-term durability of floaters and modules. In this paper, we focus the current level of packaging development and introduce research trends that could be applied to next-generation floating photovoltaics.
Keywords
Floating photovoltaic; Packaging; Pontoon; Reliability; Renewable energy;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 F. Shariatzadeh, P. Mandal, and A. K. Srivastava, "Demand response for sustainable energy systems: A review, application and implementation strategy", Renewable Sustainable Energy Rev., 45 , 343 (2015).   DOI
2 E. W. McFarland, "Solar energy: setting the economic bar from the top-down", Energy Environ. Sci., 7, 846 (2014).   DOI
3 M. A. Green, "Commercial progress and challenges for photovoltaics", Nat. Energy, 1, 15015 (2016).   DOI
4 H. Tanaka and K. S. Kim, "Reliability evaluation for photovoltaic modules", J. Microelectron. Packag. Soc., 19(2), 1 (2012).   DOI
5 K. Trapani and M. R. Santafe, "A review of floating photovoltaic installations: 2007-2013", Prog. Photovoltaics, 23, 524 (2015).   DOI
6 F. Bella, A. Lambetti, S. Bianco, E. Tresso, C. Gerbaldi, and C. F. Pirri, "Floating, Flexible Polymeric Dye-Sensitized Solar-Cell Architecture: The Way of Near-Future Photovoltaics", Adv. Mater. Technol., 1, 160002 (2016).
7 C. Ferrer-Gisbert, J. J. Ferran-Gozalvez, M. R. Santafé, P. F. Gisbert, F. J. Sanchez-Romero, and J. B. Torregrosa-Soler, "A new photovoltaic floating cover system for water reservoirs", Renewable Energy, 60, 63 (2013).   DOI
8 N. Zhang, G. Chen, Y. Xu, X. Xu, and L. Yu, "Power Generation, Evaporation Mitigation, and Thermal Insulation of Semitransparent Polymer Solar Cells: A Potential for Floating Photovoltaic Applications", ACS Appl. Energy Mater., 2, 6060 (2019).   DOI
9 M. R. Santafe, J. B. T. Soler, F. J. S. Romero, P. S. F. Gisbert, J. J. F. Gozalvez, and C. M. F. Gisbert, "Theoretical and experimental analysis of a floating photovoltaic cover for water irrigation reservoirs", Energy, 67, 246 (2014).   DOI
10 World Bank Group, "Floating Solar Market Report-Excutive Summary", 1, ESMAP (2018).
11 https://zdnet.co.kr/view/?no=20200803175851
12 Korea energy agency, "Analysis report of floating photovoltaic market" (2018).
13 S. H. Lee, B. M. Park, K. H. Kim, Y. C. Chang, J. Pyee, and H. J. Chang, "Effects of passivation thin films by spray coatings on properties of flexible CIGS solar cells", J. Microelectron. Packag. Soc., 23(3), 57 (2016).   DOI
14 https://www.yna.co.kr/view/AKR20150330043800009
15 http://m.cnews.co.kr/m_home/view.jsp?idxno=201801031136520120985
16 http://m.solartodaymag.com/news/articleView.html?idxno=9019
17 Korea institute of civil engineering and building technologt, "Preliminary study on development of buoyant body and mooring system for marine solar power plant" (2018).
18 Y. K. Choi, N. H. Lee, A. K. Lee, and K. J. Kim, "A study on major design elements of tracking-type floating photovoltaic systems", Int. J. Smart Grid Clean Energy, 3, 70 (2014).   DOI
19 http://www.fntoday.co.kr/ews/articleView.html?idxno=203502
20 http://www.scotra.co.kr/
21 http://nemoeng.com/new/
22 http://efloat.co.kr/
23 https://www.q-cells.com/
24 H. Wang, Y. Zhao, Z. Wang, Y. Liu, Z. Zhao, G. Xu, T. Han, J. Lee, C. Chen, D. Bao, Y. Huang, Y. Duan, and Y. Yang, "Hermetic seal for perovskite solar cells: An improved plasma enhanced atomic layer deposition encapsulation", Nano Energy, 69, 104375 (2020).   DOI
25 B. Conings, J. Drijkoningen, N. Gauquelin, A. Babayigit, J. D'Haen, L. D'Olieslaeger, A. Ethirajan, J. Verbeeck, J. Manca, E. Mosconi, F. De Angelis, and H. G. Boyen, "Intrinsic thermal instability of methylammonium lead trihalide perovskite", Adv. Energy Mater., 5, 8 (2015).
26 K. W. Bong, J. L.ee, and P. S. Doyle, "Stop flow lithography in perfluoropolyether (PFPE) microfluidic channels", Lab Chip, 14, 4680 (2014).   DOI
27 J. Zhang, A. Wang, and S. Seeger, "Nepenthes Pitcher Inspired Anti-Wetting Silicone Nanofilaments Coatings: Preparation, Unique Anti-Wetting and Self-Cleaning Behaviors", Adv. Funct. Mater., 24, 1074 (2014).   DOI
28 http://www.electimes.com/article.asp?aid=1592444853200365002
29 https://standard.go.kr/KSCI/standardIntro/getStandardSearch-View.do?menuId=919&topMenuId=502&upperMenuId=503 &ksNo=KSC8561&tmprKsNo=KSC8561&reformNo=04
30 H. Liu, V. Krishna, J. L. Leung, T. Reindl, and L. Zhao, "Field experience and performance analysis of floating PV technologies in the tropics", Prog. Photovolt. Res. Appl., 26, 957 (2018).   DOI