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新型温差能驱动水下滑翔器系统设计 被引量:10

Design of a new type underwater glider propelled by temperature difference energy
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摘要 温差能驱动水下滑翔器使用海洋温差能作为驱动能源,只使用少部分电能用于控制和传感系统,其巡航范围和工作时间远远大于其它种类的水下航行器,与电能驱动水下滑翔器相比也具有明显优势.文章给出了温差能驱动水下滑翔器各功能模块设计和试验,并进行了总体系统的水域试验,验证了系统设计的有效性. The underwater glider which is driven by temperature difference energy uses little electric energy to the control and communication system. Thus its cruise range is much longer than other kinds of Underwater Vehicles. And also it has many advantages than the underwater glider driven by electric energy. The main modules designs and experiments are analyzed And the effectiveness of the whole underwater glider system is verified by the tests in the water area.
作者 王延辉 张宏伟 武建国
机构地区 天津大学机械工程学院
出处 《船舶工程》 CSCD 北大核心 2009年第3期51-54,共4页 Ship Engineering
基金 国家自然科学基金重点项目(50835006) 国家自然科学基金青年基金(50705063) 天津市应用基础及前沿技术研究计划重点项目(09JCZDJC23400)
关键词 水下航行器 水下滑翔器 温差能 驱动 Underwater Vehicle underwater glider temperature difference energy drive
分类号 P715.5 [天文地球—海洋科学] TP24 [自动化与计算机技术—检测技术与自动化装置]
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参考文献9

  • 1Webb D. SOFAR floats for POLYMODE [C]//Proc. Oceans'77 Conf., Los Angeles, CA., U.S.A., 1977, 2: 44B- 1-44-B-5.
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  • 3Simonetti P.. SLOCUM glider: design and 1991 field trials [R]/AVebb Research Corp., Woods Hole Oceanographic Institution, Office of Naval Technology, Contract No. N00014- 90C-0098, 1992.
  • 4Webb D., Simonetti P., and Jones C. SLOCUM: an underwater glider propelled by environmental energy [J]. IEEE Journal of Oceanic Engineering, 2001, 26(4): 447-452.
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  • 7XRAY fling wing glider [EB/OL]. [2008-07]. http://www. apl.washington.edu/projects/xray/summary.html.
  • 8王延辉,王树新,谢春刚.基于温差能源的水下滑翔器动力学分析与设计[J].天津大学学报,2007,40(2):133-138. 被引量:29
  • 9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:30

二级参考文献21

  • 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:30
  • 3Webb,D C,P J Simonetti,C P Jones.SLOCUM,An Underwater Glider Propelled by Environmental Energy[J].IEEE Journal of Oceanic Engineering,2001,26(4):447-452.
  • 4Gwyn Griffiths.Technology and Applications of Autonomous Underwater Vehicles[M].London:Taylor & Francis book company,2003.
  • 5J Sherman,R E Davis,W B Owens,and J Valdes.The autonomous underwater glider "Spray"[J].IEEE J Oceanic Eng,2001,26:437-446.
  • 6C C Eriksen,T J Osse,R D Light,T Wen,T W Lehmann,P L Sabin,J W Ballard,A M Chiodi.Seaglider:A long range autonomous underwater vehicle for oceanographic research[J].IEEE J Oceanic Eng,2001,26:424-436.
  • 7E Fiorelli,P Bhatta,N E Leonard,I Shulman.Adaptive sampling using feedback control of an autonomous underwater glider fleet.Proc 13th Int Symposium on Unmanned Untethered Submersible Tech,Durham,NH,Aug.2003.
  • 8N E Leonard and J G Graver.Model-based feedback control of autonomous underwater gliders[J].IEEE J Oceanic Eng,2001,26:633-645.
  • 9P Bhatta and N E Leonard.Stabilization and coordination of underwater gliders.Proc 41st IEEE Conference on Decision and Control,2002,2081-2086.
  • 10J G Graver,R Bachmayer,N E Leonard,and D M Fratantoni.Underwater glider model parameter identification.Proc 13th Int,Symposium on Unmanned Untethered Submersible Tech,2003.

共引文献51

同被引文献104

引证文献10

二级引证文献159

船舶工程
2009年 第3期

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