阮灼豪，等                                                                水产学报, 2025, 49(12): 129501

                     Peng Y W, Li H, Liu B B. Hubei Central enterprises to build  Con  solar  cells  on  textured  wafer  with  ALD  SiO x   layer[J].
                     the world’s largest single floating photovoltaic power station  Solar Energy Materials and Solar Cells, 2020, 207: 110357.
                     grid-connected[EB/OL].  (2021-05-15)[2024-07-03].  https://  [  56  ]   Fu X Q, Niu H S. Key technologies and applications of agri-
                     www.hubei.gov.cn/hbfb/rdgz/202105/t20210515_3536196.  cultural energy internet for agricultural planting and fisheries
                     shtml (in Chinese).                             industry[J].  Information  Processing  in  Agriculture,  2023,
              [  47  ]   山东省能源局. 国能聊城  202  兆瓦水库光伏项目冲刺年底             10(3): 416-437.
                     并 网  [EB/OL].  (2022-11-09)[2024-07-03].  http://nyj.shan-  [  57  ]   曹玲. 渔光互补产业模式发展的研究  [D]. 南京: 南京农业大
                     dong.gov.cn/art/2022/11/9/art_253733_10294675.html.  学, 2019.
                     Energy Administration of Shandong Province. Shandong Pro-  Cao L. Research on the industry development of photovoltaic
                     vincial  Energy  Bureau  media  focus  on  the  National  Energy  power  system  in  fishery[D].  Nanjing:  Nanjing  Agricultural
                     Liaocheng 202 MW reservoir photovoltaic project sprint to the  University, 2019 (in Chinese).
                     end of the grid[EB/OL]. (2022-11-09)[2024-07-03]. http://nyj.  [  58  ]   Li Z M, Liu X Y, Tang R S. Optical performance of vertical
                     shandong.gov.cn/art/2022/11/9/art_253733_10294675.html (in  single-axis tracked solar panels[J]. Renewable Energy, 2011,
                     Chinese).                                       36(1): 64-68.
              [  48  ]   全 方 位 赏 析 日 本 最 大 水 上 光 伏 电  [EB/OL].  (2022-11-  [  59  ]   Campana P E, Wästhage L, Nookuea W, et al. Optimization
                     09)[2024-07-03].  https://news.solarbe.com/201606/06/98921.  and  assessment  of  floating  and  floating-tracking  PV  systems
                     html.                                           integrated in on- and off-grid hybrid energy systems[J]. Solar
                     A comprehensive appreciation of Japan's largest floating solar  Energy, 2019, 177: 782-795.
                     power plant. [EB/OL]. (2022-11-09)[2024-07-03]. https://news.  [  60  ]   Kichou  S,  Skandalos  N,  Wolf  P.  Floating photovoltaics   per-
                     solarbe.com/201606/06/98921.html (in Chinese).  formance  simulation  approach[J].  Heliyon,  2022,  8(12):
              [  49  ]   Desai S P, Wagh M, Shinde N N. A review on floating solar  e11896.
                     photovoltaic  power  plant[J].  International Journal  of   Sci-  [  61  ]   Rosa-Clot M, Rosa-Clot P, Tina G M, et al. Submerged photo-
                     entific and Engineering Research, 2017, 6(8): 789-794.  voltaic  solar  panel:  SP2[J].  Renewable  Energy,  2010,  35(8):
              [  50  ]   Kumar  M,  Kumar  A.  Performance assessment  and   degrada-  1862-1865.
                     tion  analysis  of  solar  photovoltaic  technologies:  a  review[J].  [  62  ]   Kumar M, Niyaz H M, Gupta R. Challenges and opportunities
                     Renewable and Sustainable Energy Reviews, 2017, 78: 554-  towards the development of floating photovoltaic systems[J].
                     587.                                            Solar Energy Materials and Solar Cells, 2021, 233: 111408.
              [  51  ]   Cui H, Heath G, Remo T, et al. Technoeconomic analysis of  [  63  ]   Essak L, Ghosh A. Floating photovoltaics: a review[J]. Clean
                     high-value,  crystalline  silicon  photovoltaic  module  recycling  Technologies, 2022, 4(3): 752-769.
                     processes[J].  Solar  Energy  Materials  and  Solar  Cells,  2022,  [  64  ]   Ma C, Liu Z. Water-surface photovoltaics: performance, util-
                     238: 111592.                                    ization,  and  interactions  with  water  eco-environment[J].
              [  52  ]   Ballif C, Haug F J, Boccard M, et al. Status and perspectives  Renewable  and  Sustainable  Energy  Reviews,  2022,  167:
                     of crystalline silicon photovoltaics in research and industry[J].  112823.
                     Nature Reviews Materials, 2022, 7(8): 597-616.  [  65  ]   Acharya M, Devraj S. Floating solar photovoltaic (FSPV): a
              [  53  ]   McCann M J, Catchpole K R, Weber K J, et al. A review of  third pillar to solar PV sector?[R]. New Delhi: The Energy and
                     thin-film crystalline silicon for solar cell applications. Part 1:  Resources Institute (TERI), 2019.
                     native  substrates[J].  Solar  Energy  Materials  and  Solar  Cells,  [  66  ]   Ziar H, Prudon B, Lin F Y, et al. Innovative floating bifacial
                     2001, 68(2): 135-171.                           photovoltaic  solutions  for  inland  water  areas[J].  Progress  in
              [  54  ]   Cazzaniga R, Rosa-Clot M, Rosa-Clot P, et al. Floating track-  Photovoltaics:  Research  and  Applications,  2021,  29(7):  725-
                     ing cooling concentrating (FTCC) systems[C]//Proceedings of  743.
                     the 2012 38th IEEE Photovoltaic Specialists Conference. Aus-  [  67  ]   Clot M R, Clot P R, Carrara S. Apparatus and method for gen-
                     tin: IEEE, 2012: 000514-000519.                 erating  electricity  using  photovoltaic  panels:  U.  S.
              [  55  ]   Lozac'H  M,  Nunomura  S,  Matsubara  K.  Double-sided  TOP-  20110168235[P]. 2011-07-14.

              中国水产学会主办  sponsored by China Society of Fisheries                          https://www.china-fishery.cn
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