海浪发电

  • 网络Wave power generation;wave technology
海浪发电海浪发电
  1. 海浪发电机构的探讨

    An Approach to the Mechanism Design of Seawave Generating Electricity

  2. 浮子式海浪发电船的动态分析与仿真

    Dynamic Analysis and Emulation of Float-Type Wave Power Generation Boat

  3. 澳大利亚的新型海浪发电系统

    A New Type of Wave Power Generating Devices in Australia

  4. 因该漂浮式液压海浪发电站的设计缺乏足够的技术参考资料。

    The design of this hydraulic wave power station lacks of reference materials .

  5. 在建立无线数据采集系统的基础上,开发了系统的有线数据采集功能,使海浪发电数据采集系统得到了进一步的完善。

    The cable data acquisition is developed to perfect the data acquisition system of wave power generation device .

  6. 双浮子海浪发电装置参数分析以及结构优化设计

    Analyzing Primary Parameters of Twin - floater Ocean Wave Generate Electricity Device and Designing It with Most Optimal Geometric Shape

  7. 最后,在海浪发电模拟实验装置系统性能研究的基础上,讨论了海浪发电装置的数据采集问题,研究了无线通信技术在海浪发电数据采集技术中的应用。

    Then , study the application of the wireless data transformation technology in the data acquisition of the wave power generation technology .

  8. 海浪发电是指海洋波浪能捕捉到做有益的工作,包括发电,海水淡化,并填补了水水库。

    Wave power refers to the capture of ocean wave energy to do useful work including electricity generation , desalination , and filling a reservoir with water .

  9. 本文给出双浮子海浪发电装置的总体设计简图以及其设计结构图,并对设计的关键部分&浮子臂进行强度校核。

    Besides , this paper presents the designs for the twin-floater ocean wave generate electricity device , and verifies the intensity of the floating arm which is important for the design .

  10. 其中,通过波浪能进行发电是海洋能利用的重要方式之一,因此,进行海浪发电技术的研究具有深刻和广泛的现实意义。

    Using the wave energy to generate electricity is one of the most important ways to utilize the ocean energy . To study the wave power generation has deep and extensive practical significance .

  11. 本文对双浮子海浪发电装置建立了发电原理的数学模型,并在此基础上进行了无量纲分析和结构参数分析,以寻求得到整个发电装置的最佳设计参数。

    This paper founds mathematical model of twin-floater ocean wave generate electricity device , and analyzes primary parameters on the base of mathematical model for searching the optimal solution during designing this electricity device .

  12. 最后,本文在设计参数已定的情况下对双浮子海浪发电装置发电状况进行动态过程的描述,说明整个发电装置的可行性。

    At last , this paper dynamically describes the status of the generate electricity of the device in the case that the primary parameters are given , and shows the feasibility of the generate electricity device .

  13. 在取得浮体所受载荷的情况下,我们对全液压漂浮式海浪发电装置的液压系统进行了设计,并最终选定了该装置发电所用的发电机,液压缸和液压马达。

    When we got the floating body load cases , we designed the hydraulic system of the floating type wave power device , and ultimately selected a electricity generator , a hydraulic cylinder and a hydraulic motor .

  14. 本文结合双浮子海浪发电装置,通过讨论浮子受力大小情况求出了浮子的最优几何形状,并动态描述了浮子在海水中的受力状况。

    This paper finds the optional shape of the floater in the twin-floater ocean wave generate electricity device by discussing the force on the floater , and dynamically describes the status of the force on the floater in the sea .

  15. 该数据采集系统的开发不仅实现了无人值守条件下海浪发电装置的数据采集与监测,而且具有结构简单、自动化程度高、成本低、稳定性好等优点。

    It can not only achieve the wireless acquisition of the electric parameters in the unattended conditions , but also have advantages of the simple structures , high degree of automation , low cost , good stability and so on .

  16. 本文介绍了海浪发电装置的原理及英国正在建设的一项海浪发电工程,并展望了海浪发电在全世界的发展前景。

    It gives the theory of a type of wave power generating device and a project of wave power which is under constructed in the UK , the prospect of wave power generation worldwide is also presented in the paper .

  17. 得出了不同负载、不同海浪力作用下发电液压系统内部压力的特性曲线。

    The characteristic curves of pressure of hydraulic power generation system are achieved under different load and wave force .