风光互补发电系统

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风光互补发电系统风光互补发电系统
  1. 风光互补发电系统的优化设计(I)CAD设计方法

    Optimum sizing of pv / wind hybrid system ( I ) CAD method

  2. 仿真结果表明空间矢量法控制简单,谐波含量少。最后,在SVPWM控制算法的基础上,采用dq解耦原理设计了风光互补发电系统的并网模型。

    The simulation results show that the space vector control is more sample and less harmonic content . Finally , based on the SVPWM the net-connected wind-solar hybrid power system model using the principle of d-q decoupling is designed .

  3. 最后,在Matlab/Simulink环境下,建立风力机、发电机、光伏阵列、Buck型电路、PWM信号发生器、最大功率跟踪控制等模型,分别对风力发电系统、光伏发电系统及风光互补发电系统进行仿真研究。

    In this way , we can make the system work in the best condition . Finally , the simulation models such as wind turbine , generator , photovoltaic arrays , Buck-type converters , PWM signal generator and maximum power tracking controller have been established under Matlab / Simulink environment .

  4. 尽管目前风光互补发电系统推广应用很快、需要量大,但由于太阳能电池组件价格太高(每WP30~50元)。

    Despite the current landscape to promote the application of hybrid generating system very quickly , the demand for large , but the solar cell component costs are too high ( per WP30 ~ 50 million ) .

  5. 研究了风光互补发电系统的逆变控制技术。

    The inverter control technology of the hybrid system is investigated .

  6. 小型风光互补发电系统控制器的研究

    Research on Controller of Small-scale Wind & Light Complementary Electricity-generating System

  7. 小型户用风光互补发电系统匹配的计算机辅助设计

    Computer Aided Design for Small-scale Household Wind / PV Hybrid Generating System

  8. 基于单片机的船用风光互补发电系统控制器的设计

    Design of PV / Wind Hybrid System Controller Based on MCU for Ship

  9. 离网型户用风光互补发电系统中全数字化逆变器的研究

    Study on Digital Inverter of Off-Grid Type Wind-Solar Photovoltaic Hybrid Generating System of Household-Use

  10. 分布式风光互补发电系统及其多目标优化控制策略研究

    Multi-index Optimization Control Strategy Based on Distributed PV and Wind Energy Complemental Generation System

  11. 风光互补发电系统的提出又将其产业技术向前推进了一步。

    Wind-light complementary system and put forward its a step forward in industrial technology .

  12. 苏北湖区户用风光互补发电系统的设计与试验分析

    Design and experimental analysis on household Wind / Pv generation system in the lakes of northern Jiangsu province

  13. 该系统为研究风光互补发电系统的控制、能源的变换和利用、整流与逆变、蓄电池的智能充放电等课题提供了实验平台。

    This system provides an experimental platform for studying the way to utilize , control and transform natural energy .

  14. 针对这些问题,本论文着重论述了风光互补发电系统中智能蓄能的一些控制策略。

    To solve these problems , this paper focuses on the Wind Power Generation Intelligent energy management system of some control strategies .

  15. 风光互补发电系统,结合风力发电机与太阳能模组之发电系统提高再生能源之利用率与设置弹性。

    This thesis proposes an uninterruptible power supply , UPS for high availability servers with fuel cells as its back up energy source .

  16. 经过模拟数据可知,该小型风光互补发电系统可以满足当地用电量的需求。

    After the simulation data shows that the small wind and solar power generation system isto meet the needs of the local electricity consumption .

  17. 当前,国内外在设计风光互补发电系统时主要还是采用经验估算设计,这样大大增加投入成本,造成资源的严重浪费。

    At present , domestic and foreign in the design of Wind Power Generation systems are mainly used on experience design , thereby greatly increasing input costs , resulting in serious waste of resources .

  18. 评价风光互补发电系统主要部件的实际运行性能,判断风光互补发电系统是否达到设计要求,需要实时测试风光互补发电系统的各项参数。

    It is important to test the parameters of the hybrid wind / photovoltaic power generation system for evaluating the actual operating performance of the system and determine whether the system meet the design requirements .

  19. 利用西部地区风、光资源,设计一风力发电机组和太阳能光伏电池为一体的风光互补发电系统。

    In view of the wind and the solar energy resources are in abundance in western areas , the wind-solar hybrid power supply system was introduced , which consists of wind turbine and solar energy power .

  20. 太阳能、风能在资源条件和技术应用上都有很好的互补特性,综合考虑太阳能和风能在多方面的互补特性而建立起来的风光互补发电系统是一种经济合理的供电方式。

    Solar energy and wind energy have complementary characteristics both in resource condition and technical application . Wind & solar complementary electricity-generating system thinking over there complementary characteristics is an economic and reasonable way of power supply .

  21. 其次,对风光互补发电系统的核心部件风力发电机和太阳能电池板进行实际情况下的性能测试,研究其在实际情况下的能源转换效率,为风光互补发电系统优化匹配计算提供依据。

    Second , we measured the performance of wind generator and solar battery , the core components of the system , to gain the actual efficiency and provide principles to optimize the hybrid wind / PV power generating system .

  22. 本文工作包括以下内容:本文首先分析风光互补发电系统结构特点和运行原理,详细阐述系统中重要组件的工作特性及其在系统中的重要作用。

    The main contents are summarized as below : The structure characteristics and operation principle of wind solar hybrid power system are analyzed . Work characteristics of the key components and their important functions playing in system are expatiated in detail .

  23. 在世界能源日益短缺的背景下,世界各国都加大了对可再生能源的研究,风光互补发电系统作为一种稳定性和经济性都比较好的能源利用方式得到了越来越广泛的应用。

    Under the background of decrease of the energy in the world , the research of the renewable energy in every country is increasing and hybrid wind / photovoltaic power generation system which has good stability and economy is being more widely used .

  24. 风光互补发电控制系统的研究与开发

    The Research & Development on Control System of Wind / Solar Hybrid Generation

  25. 风能和太阳能在时间分布上具有互补性,建立风光互补并网发电系统能弥补风能和太阳能独立发电的缺点。

    Wind and solar are complementary in the time distribution , the wind and solar power generation can compensate for wind or solar independent power system .

  26. 离网型风光互补发电数据采集系统的实现

    Realization of Data Acquisition System for the Stand-alone Wind-solar Hybrid Power Generation

  27. 基于风光互补特性,建设风光互补发电系统具有重大意义。

    Construct wind and PV hybrid power system based on the complementary nature of the wind and solar is of great significance .

  28. 风光互补路灯就是其主要的应用之一,它利用了风光互补发电系统的能源优势,具备了稳定可靠、节省资源和低功耗零排放等众多优点。

    Scenery is its main complementary street lamp of the application , it used the wind-light complementary system energy advantage , has the stable and save resources and low power consumption zero emissions and many other advantages .