Study and Implementation on Batteries Charging Method of Micro-Grid Photovoltaic Systems 被引量：1

Study and Implementation on Batteries Charging Method of Micro-Grid Photovoltaic Systems

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摘要 In the micro-grid photovoltaic systems, the random changes of solar radiation enable lead-acid batteries to experience low SOC (State of Charge) or overcharged for periods of time if directly charged with such traditional methods as decreased charging current, which will reduce lifetime of batteries. What’s more, it’s difficult to find a proper reduction coefficient in decreasing charging current. To adapt to the random changes of circumstance and avoid selecting the reduction coefficient, a new fast charging method named decreased charging current based on SOC is proposed to apply into micro-grid photovoltaic systems. It combines batteries’ SOC with the maximum charging voltage to determine the charging rate without strictly selecting reduction coefficient. By close-loop current control strategy and related scheme, the experiment proves the new method is feasible and verifies that, comparing with decreased charging current, the improved method make batteries’ SOC reach 100% in shorter time as well as the temperature of batteries raise more slowly. In the micro-grid photovoltaic systems, the random changes of solar radiation enable lead-acid batteries to experience low SOC (State of Charge) or overcharged for periods of time if directly charged with such traditional methods as decreased charging current, which will reduce lifetime of batteries. What’s more, it’s difficult to find a proper reduction coefficient in decreasing charging current. To adapt to the random changes of circumstance and avoid selecting the reduction coefficient, a new fast charging method named decreased charging current based on SOC is proposed to apply into micro-grid photovoltaic systems. It combines batteries’ SOC with the maximum charging voltage to determine the charging rate without strictly selecting reduction coefficient. By close-loop current control strategy and related scheme, the experiment proves the new method is feasible and verifies that, comparing with decreased charging current, the improved method make batteries’ SOC reach 100% in shorter time as well as the temperature of batteries raise more slowly.

作者 Tiezhou Wu Qing Xiao Linzhang Wu Jie Zhang Mingyue Wang

机构地区不详

出处《Smart Grid and Renewable Energy》 2011年第4期324-329,共6页 智能电网与可再生能源（英文）

关键词 MICRO-GRID PHOTOVOLTAIC System DECREASED CHARGING Current Based On SOC CHARGING Rate Reduction COEFFICIENT Micro-Grid Photovoltaic System Decreased Charging Current Based On SOC Charging Rate Reduction Coefficient

分类号 R73 [医药卫生—肿瘤]

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参考文献3

1张国驹,唐西胜,齐智平.超级电容器与蓄电池混合储能系统在微网中的应用[J].电力系统自动化,2010,34(12):85-89. 被引量：202
2王心琦,张代润.载波反相三角波比较电流跟踪PWM控制法[J].中国西部科技,2009,8(12):5-7. 被引量：3
3李旭,谢运祥.PWM技术实现方法综述[J].电源技术应用,2005,8(2):51-55. 被引量：34

二级参考文献18

1李旭,谢运祥.PWM技术实现方法综述[J].电源技术应用,2005,8(2):51-55. 被引量：34
2唐西胜,武鑫,齐智平.超级电容器蓄电池混合储能独立光伏系统研究[J].太阳能学报,2007,28(2):178-183. 被引量：79
3LASSETER R H, AKHIL A, MARNAY C, et al. Consortium for electric reliability technology solutions white paper on protection issues of the mierogrid concept [R/OL]. [2002-03- 17]. http://certs, lbl. gov.
4朱松燃,张勃然.铅酸蓄电池技术.北京:机械工业出版社,1988.
5DOUGAL R A, LIU S, WHITE R E, Power and life extension of battery-ultracapacitor hybrids. IEEE Trans on Components and Packaging Technologies, 2002, 25(1): 120 131.
6GAO Lijun, DOUGAL R A, LIU Shengyi. Power enhancement of an actively controlled battery/ultracapacitor hybrid. IEEE Trans on Power Electronics, 2005, 20(1): 236-243.
7ZUBIETA L, BONERT R. Characterization of double-layer capacitors for power electronics applications. IEEE Trans on Industry Applications, 2000, 36(1): 199-205.
8XU Haiping, KONG Li, WEN Xuhui. Fuel cell power system and high power DC-DC converter. IEEE Trans on Power Electronics, 2004, 19(5):1250-1255.
9GRIGORE V, HATONEN J, KYYRA J, et al. Dynamics of a Buck converter with a constant power load// Proceedings of the 29th Annual IEEE Power Electronics Specialists Conference: Vol 1, May 17-22, 1998, Fukuoka, Japan: 72-78.
10孙立清陈伟王仁贞.超级电容系统在电动汽车中的应用[A]..中国汽车工程学会2003学术年会[C].,2003..

共引文献236

1程文华,郭延齐,胡越.PWM理论及其在显示领域的应用研究[J].科技风,2009(12):173-174.
2胡雪梅,赵德申.不间断电源关键器件分析[J].电气开关,2007,45(3):1-4. 被引量：1
3胡雪梅,史增芳.不间断电源关键器件分析[J].工矿自动化,2007,33(4):109-112.
4滕旭东,王弘辉,傅友登.基于CPLD的数字PWM信号发生器的设计[J].微计算机信息,2007,23(20):178-179. 被引量：7
5赵建武,赵丽娜.单相PWM逆变电源控制策略研究[J].辽宁大学学报（自然科学版）,2007,34(4):342-345. 被引量：3
6罗小巧,廖小芳.基于CPLD的PWM信号发生器设计[J].电子测量技术,2007,30(12):87-90. 被引量：12
7代刚,邵贝贝.基于NiosII的多通道PWM信号测量/产生器节点设计[J].电子产品世界,2008,15(7):89-91. 被引量：2
8王康平,张凯.任意波形信号发生器系统的硬件开发[J].微计算机信息,2008,24(25):206-207.
9王心琦,张代润.载波反相三角波比较电流跟踪PWM控制法[J].中国西部科技,2009,8(12):5-7. 被引量：3
10唐美玲,赵佑初.基于MC34063的斩波型开关电源的典型设计与研究[J].电源技术应用,2011,14(2):54-59. 被引量：4

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1Khaled Bataineh,Doraid Dalalah.Optimal Configuration for Design of Stand-Alone PV System[J].Smart Grid and Renewable Energy,2012,3(2):139-147. 被引量：5

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1肖友鹏.户用光伏发电系统的经济性和环境效益分析[J].江西科技学院学报,2014,9(3):38-41. 被引量：1
2肖友鹏.轻型太阳电动车电源系统设计与经济性分析[J].电源技术,2016,40(12):2397-2399. 被引量：1
3蔡仕彪,朱德兰,葛茂生,刘柯楠,李丹.太阳能平移式喷灌机光伏优化配置[J].排灌机械工程学报,2017,35(5):417-423. 被引量：7
4李丹,朱德兰,林明月,武亚梅,赵航,王蓉.卷盘式喷灌机牵引装置油光互补供电系统配置优化[J].农业机械学报,2019,50(8):131-139. 被引量：5
5赵航,朱德兰,张锐,纳扎罗夫•胡代贝尔迪,柳昌新.多因素耦合的光伏水泵提水系统配置优化方法[J].农业工程学报,2024,40(3):84-93.

1Xiaoyan Xu.Research on Fuzzy PID Charging Control of Battery Pack[J].World Journal of Engineering and Technology,2017,5(3):421-427.
2Jingyan Zhang,Xiaowan Bai,Tongtong Wang,Wen Xiao,Pinxian Xi,Jinlan Wang,Daqiang Gao,John Wang.Bimetallic Nickel Cobalt Sulfide as E cient Electrocatalyst for Zn–Air Battery and Water Splitting[J].Nano-Micro Letters,2019,11(1):33-45. 被引量：5
3Jianjian Li,Luojiang Qian.A Hybrid Simulation Test Platform for Verifying the Protection Settings of SPS[J].Energy and Power Engineering,2017,9(4):346-351.
4徐辉,骆子雅,谢文锦,荆朝霞.英国配电价格机制对我国增量配电网建设的启示[J].广东电力,2019,32(10):119-126. 被引量：3
5Satoshi Yamaguchi,Eiichi Sato,Ryuji Nakamura,Hirobumi Oikawa,Hisao Kakuhara,Koyo Kikuchi,Hisanori Ariga,Shigeru Ehara.Disposable Condenser Dosimeter Using a Skin-Insulated Mini-Substrate with a Silicon X-Ray Diode in Image-Guided Radiation Therapy[J].International Journal of Medical Physics, Clinical Engineering and Radiation Oncology,2018,7(1):35-46.
6Hugo Araujo,Bo Xiao,Chuang Liu,Yanbin Zhao,H. K. Lam.Design of Type-1 and Interval Type-2 Fuzzy PID Control for Anesthesia Using Genetic Algorithms[J].Journal of Intelligent Learning Systems and Applications,2014,6(2):70-93. 被引量：1
7周伟,李梁,刘数华,VINHT.N.Dao,刘杏红.Hydration properties and thermal analysis of cement-based materials containing limestone powder[J].Journal of Central South University,2017,24(12):2932-2939. 被引量：1
8Wei WEI,Danman WU,Qiuwei WU,Miadreza SHAFIE-KHAH,Joao PSCATALAO.Interdependence between transportation system and power distribution system: a comprehensive review on models and applications[J].Journal of Modern Power Systems and Clean Energy,2019,7(3):433-448. 被引量：14
9Bong G. Kim,Dipesh D. Patel,Ziyad M. Salameh.Circuit Model of 100 Ah Lithium Polymer Battery Cell[J].Journal of Power and Energy Engineering,2013,1(6):1-8.

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