温差能

  • 网络temperature-difference energy
温差能温差能
  1. 两种混合式海水温差能发电系统的研究与对比分析

    Research and Contrastive Analysis of Hybrid Ocean Thermal Energy Conversion System

  2. 海水温差能发电系统两种循环方式的比较研究

    Comparative Research of Two cycle Modes in Ocean Thermal Conversion Systems

  3. 温差能驱动的水下滑翔器热机设计与实验研究

    Design of a new type underwater glider propelled by temperature difference energy

  4. 热机是温差能驱动水下监测平台的动力装置。

    Thermal engine is the drive-device of AUV driven by temperature difference energy .

  5. 对混合式海水温差能发电系统的两种循环形式进行了对比分析。

    Comparative research is performed for two cycle modes of hybrid OTEC systems .

  6. 温差能水下滑翔机是利用海洋温跃层温差驱动的新型水下运载器。

    Thermal underwater gliders are autonomous underwater vehicles driven by the energy from thermocline .

  7. 海洋温差能驱动系统的原理和结构

    Principle and structure of ocean thermal power system

  8. 我国海水温差能资源蕴藏量和可开发量估算

    The estimation of the reservoir capacity and the exploitable quantity of China oceanic thermal energy

  9. 设计并搭建海洋温差能海水淡化实验系统,并对实验结果进行分析。

    Experimental system is designed and built , and the experimental results are measured and analyzed .

  10. 利用海洋温差能驱动的水下运载器在航行时无需能源补充,海洋温跃层上下的温差就是潜水器动力的来源。

    The idea of driving the underwater vehicle ( UV ) by ocean thermal power is proposed .

  11. 文章讨论了温差能驱动的滑翔器运动机理及其在垂直剖面的运动分析,得到稳态运动的参数解。

    This paper introduces the moving mechanism and analyses gliding dynamics of the glider in vertical plane .

  12. 海洋温差能储量巨大,是国际社会公认的最具开发潜力的能源之一。

    Ocean thermal energy is one of the most potential energy accepted by the international community because of its tremendous reserves .

  13. 考虑到未来对可持续能源的需求,加强我国海水温差能的开发已势在必行。

    Considering the requirements for the renewable energy sources in the future , it is imperative to strengthen the exploitation of the ocean thermal energy .

  14. 结合能够把水域温差能转变为机械能的热机设计以及滑翔器的主要机械结构和控制硬件系统设计,完成了滑翔器的初步设计与开发。

    Combining the thermal engine which driven by the temperature difference energy with mechanical design and control system deign , the underwater glider is developed .

  15. 根据温差能驱动的工质材料试验结果和监测平台的运动分析,结合微结构剖面测量的试验指标完成了温差能驱动的垂直升降水下监测平台机械系统设计。

    Based on the result of mode experiment and the analysis of dynamics , we have finished the mechanical design which can measure the microstructure profiler .

  16. 因此,开发新能源同时解决水资源与能源问题,将极大地推动社会的发展。海洋温差能是海洋能的一种,储量丰富且较为稳定。

    Therefore it is important to develop new clean energies for desalination and ocean thermal energy is a good choice with abundant reserves and low cost .

  17. 海洋温差能是一种清洁、可再生的能源,可以被用作发电、海水淡化、海水养殖等多种用途。

    Ocean thermal energy is a kind of clean and renewable energy , which can be used for generating electricity , seawater desalination , and seawater breed etc.

  18. 温差能驱动的水下滑翔机,通过特殊的动力系统将海洋温差能转化为机械能,驱动滑翔机航行。

    The thermal glider changes its net buoyancy by a special power system which can convert ocean thermal energy into mechanical energy and drive the glider moving .

  19. 混合式海水温差能发电系统结合了闭式循环与开式循环的共同优点,既可发电,又可产生淡水,还可以开展各种综合利用,发展前景广阔。

    Combined with the advantage of an open-cycle system and a closed-cycle system , a hybrid OTEC system not only can generate electricity , but also can produce the fresh water .

  20. 对海洋温差能发电技术的基本原理、类型、系统与装置、发展历史和现状作了全面的综述。

    The basic principle , types , system and installation , developing history and the current situations of the Oceanic Thermal Electricity Conversion ( OTEC ) are comprehensively summarized in the paper .

  21. 鉴于我国目前对海洋温差能研究的不足,本文对混合式海洋温差能的利用系统进行了研究。

    There is lack of researches on ocean thermal energy at present in this country , so this paper studies on the integrated ocean thermal energy conversion ( OTEC ) cycle system .

  22. 开发海洋温差能不仅可以缓解我国能源压力,调整能源结构,也有利于我国的环境保护。

    The exploitation of ocean thermal energy resources not only can reduce the pressure of energy resources in our country , but also can adjust the energy resource structure and environment protection .

  23. 根据所使用的驱动能源,水下滑翔器可分为电能驱动与温差能驱动水下滑翔器。

    Based on the driven power they use , the Underwater Gliders are divided into two kinds : Underwater Gliders are driven by electric power and Underwater Gliders are driven by temperature difference energy .

  24. 在能源短缺日益严峻的形势下,开发海洋温差能这一清洁可再生能源,对我国整体能源结构的调整及缓解未来能源压力具有重要意义。

    In the serious situation of energy shortage , the exploitation of ocean thermal energy , which is clean and renewable energy , is important to adjust our overall energy structure and relieve the pressure of the future energy .

  25. 占地球面积71%的海洋中蕴藏着巨大的可再生能源,主要包括有海洋风能、潮汐能、波浪能、潮流能、温差能和盐差能等。

    The ocean covers 71 % of the earth surface , and it contains large amount of renewable energy which are wind energy , tidal energy , wave energy , tidal current energy , thermal energy , salinity energy .

  26. 本文介绍了朗肯循环低温热能发电技术的现状和发展前景,这种发电技术主要用于利用和回收品味相对较低的热能,如太阳热能、工业废热、地热、海洋温差能等;

    In this paper , the development of power generation using low temperature heat is introduced . This technology is mainly applied in solar thermal system , industrial waste heat recovery system , geothermal power system , ocean thermal energy conversion system , and etc.

  27. 论证了利用温差能进行海水淡化的可行性和工艺驱动力,同时理论和实验研究所得的结论也为温差能海水淡化方法的进一步发展打下了坚实的基础。

    The feasibility and operation power of the ocean thermal energy desalination are verified from the theory and experiment . Meanwhile , the theory and experiment results of this paper have also laid a solid foundation for the further development of ocean thermal energy desalination .

  28. 计算同时也证明,冷凝回流是一种很有效的传热方式,它在很小温差下能带走堆芯大量余热。

    It 's aLso proved that reflux condensation is very effective even under small temperature difference .

  29. 采用压缩空气供冷的新型矿井空调系统,能够沿采煤工作面均匀供冷,工作面内的温差小,能有效地解决当前我国矿井集中空调中存在的实际问题。

    The new mine central air conditioning system adopting compressed air to supply cool can distribute the cool for the long wall face well even and the difference of temperature is small , so the new system can solve actual problems present in the mine central air conditioning system nowadays .

  30. 为此建议了一种分段匹配方式,以减少由于传热温差引起的可用能损失。

    A way of " sectional matching " is thus suggested to minimize the loss of available energy due to heat transfer temperature drop .