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Energy Storage System with Ultracapacitors for Thermal Underwater Glider

Energy Storage System with Ultracapacitors for Thermal Underwater Glider
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摘要 A power system with proton exchange membrane fuel cells (PEMFC) was designed for thermal underwater glider.Heat generated by PEMFC is used as the propulsion power of the glider,and the electricity is used in the control and sensor system.An electric energy storage system (ESS) is required which possesses high power density with good cycle life.Ultracapacitors which exhibit high power density and cycle life are considered as energy storage devices.Simulations based on a specific voyage condition indicate that ESS with ultracapacitors has positive effects on reducing the output power demand of PEMFC and lightening the power system.Experimental results show that the state of charge (SOC) is related to the capacitance and resistance in ultracapacitor ESS. A power system with proton exchange membrane fuel cells (PEMFC) was designed for thermal underwater glider. Heat generated by PEMFC is used as the propulsion power of the glider, and the electricity is used in the control and sensor system. An electric energy storage system (ESS) is required which possesses high power density with good cycle life. Ultracapacitors which exhibit high power density and cycle life are considered as energy storage devices. Simulations based on a specific voyage condition indicate that ESS with ultracapacitors has positive effects on reducing the output power demand of PEMFC and lightening the power system. Experimental results show that the state of charge (SOC) is related to the capacitance and resistance in ultracapacitor ESS.
出处 《Transactions of Tianjin University》 EI CAS 2013年第2期98-102,共5页 天津大学学报(英文版)
基金 Supported by the State Key Program of National Natural Science Foundation of China (No. 50835006) Science & Technology Support Planning Foundation of Tianjin (No. 09ZCKFGX03000)
关键词 thermal underwater glider proton exchange membrane fuel cell ultracapacitor energy storage system state of charge 超级电容器 滑翔机 质子交换膜燃料电池 储能系统 水下 高功率密度 电力控制系统 电力系统
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  • 1王树新,李晓平,王延辉,朱光文.水下滑翔器的运动建模与分析[J].海洋技术,2005,24(1):5-9. 被引量:24
  • 2王树新,王延辉,张大涛,何漫丽,朱光文,任炜.温差能驱动的水下滑翔器设计与实验研究[J].海洋技术,2006,25(1):1-5. 被引量:28
  • 3[1]STOMELL H.The slocum mission[J].Oceanography,1989,2(1):22-25.
  • 4[2]WEBB D C,SIMONETTI P J,JONES C P,et al.An underwater glider propelled by environmental energy[J].IEEE Journal of Oceanic Eng,2001,26(4):447-452.
  • 5[3]SHERMAN J,DAVIS R E,OWENS W B,et al.The autonomous underwater glider"Spray"[J].IEEE Journal of Oceanic Eng,2001,26(4):437-446.
  • 6[4]CHARLES C.ERIKSEN T.JAMES O,RUSSELL D,et al.Seaglider:A long-range autonomous underwater vehicle for oceanographic research[J].Journal of Oceanic Eng,2001,26(4):424-436.
  • 7[5]WEBB D.C,SIMONETTI P J.The slocum AUV:an environmentally propelled underwater glider[A].Proc 11th Int Symposium on Unmanned Unsheltered submersible Technology[C].USST,Durham,1999.
  • 8[6]ZIVKOVIC B,FUJII Ⅰ.An analysis of isothermal phase change of phase change material within rectangular and cylindrical containers[J].Solar Energy,2001,70(1):51-61.
  • 9[7]VYSHAK N.R,JILANI G,Numerical analysis of latent heat thermal energy storage system[J].Energy Conversion and Management,2007,48(7):2161-2168.
  • 10[8]LAMBERG P,LEHTINIEMI R,HENELL A M.Numerical and experimental investigation of melting and freezing processes in phase change material storage[J].International Journal of Thermal Sciences,2004,43:277-287.

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