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超轻型太阳能电动滑板方案设计

Scheme Design of Ultra-Light Solar Electric Skateboard
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摘要 针对现有滑板存在续航时间短、质量超标和充电地点限制等问题,提出了一款以巴斯夫复合材料设计机身,利用太阳能电池板通过光电效应产生电能并提供给电池组做备用电源的电动滑板方案设计。首先对太阳能电池板的材质、尺寸大小以及发电量的要求做充分的研究后,机身选用80%部件采用巴斯夫复合材料和塑料,发电装置采用有机薄膜太阳能电池,设计超轻型太阳能电动滑板车。通过测试太阳能电池板在日常条件下的发电性能和与滑板车原电池的供电线路测试,得出可作为备用电源的依据。最后组装在滑板上,实现随时充电,节省能源,超长续航的使用效果,完成超轻型太阳能电动滑板方案设计。 Aiming at the problems of the existing skateboard,such as short battery life,excessive quality and limited charging location,this paper proposed an electric skateboard design based on BASF composite material body,which uses solar panels to generate electric energy through photoelectric effect and supply the battery pack as the backup power supply.First of all,after a full study of the material,size and power generation re quirements of the solar panels,80%of the fuselage is made of BASF composite materials and plastics,and the power generation device is made of organic thin film solar cells to design the ultra-light solar electric scooter.By testing the power generation performance of the solar panel in daily conditions and the power supply line test with the primary battery of the scooter,it can be used as the basis of the backup power supply.Finally,it is assembled on the skateboard to realize the use effect of charging at any time,saving energy and ultra-long endurance,and complete the scheme design of the ultra-light solar electric skateboard.
作者 李欣雪 阮菲 李松名 Li Xin-xue;Ruan Fei;Li Song-ming(Guangdong Institute of Technology,Guangdong Zhaoqing 526000)
机构地区 广东理工学院
出处 《电子质量》 2021年第7期56-58,72,共4页 Electronics Quality
基金 广东大学生科技创新战略专项资金("攀登计划"专项资金)资助项目(pdjh2020b0706) 2020年"质量工程"项目重点专业,"电气工程及其自动化"(ZDZY2019002)。
关键词 巴斯夫复合材料 超轻型 太阳能 电动滑板 BASF composite materials Ultra light Solar energy Electric skateboards
分类号 U48 [交通运输工程—载运工具运用工程] TQ327 [化学工程—合成树脂塑料工业]
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  • 1朱明海,吴战宇,姜庆海,黄毅,周寿斌.锂电池在太阳能路灯中的应用[J].电池工业,2019,23(6):310-313. 被引量:8
  • 2翟载腾,程晓舫,丁金磊,查珺,茆美琴.电性参数对串联太阳电池失配损失的影响[J].中国电机工程学报,2006,26(z1):42-45. 被引量:7
  • 3戚军,张晓峰,张有兵,周文委.考虑阴影影响的光伏阵列仿真算法研究[J].中国电机工程学报,2012,32(32):131-138. 被引量:54
  • 4McGowan J G, Manwell J F, Avelar C. Hybrid wind/PV/ diesel power systems modeling and South American applications [ A ]. WREC 1996 [ C ], Denver: Pergamon Press, 1996, 345-352.
  • 5Zahedi A. Development of an electrical model for A PV/ battery system for performance prediction [ J ]. Renewable Energy, 1998, 15(1) : 531-534.
  • 6Badescu Viorel. Dynamic model of a complex system including PV Cells, electric battery, electrical motor and water pump[J]. Energy, 2003, 28(12) : 1165-1181.
  • 7Mary D A, Robert H. Clean electricity from photovohaics [ M]. London: Imperial College Press, 2001,345-350.
  • 8Bishop J W. Computer simulation of the effects of electrical mismatches in photovoltaic cell interconnection circuits [J]. Solar Cells, 1998, 25(1): 73-89.
  • 9Silvestre S, Chouder A. Effects of shadowing on photovoltaic module performance I J]. Progress in Photovoltaics Research and Applications, 2008, 16(2) : 141-149.
  • 10Achim W, Johan N, Ronnie B. Partial shadowing of photovoltaic arrays with different system configurations: Literature review and field test results[ J] . Solar Energy, 2003, 74(3) : 217-23.

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