太阳电池组件

  • 网络Solar Cell module
太阳电池组件太阳电池组件
  1. 经比较得出,选择性发射极太阳电池组件使用密封剂silicone封装可提高其短波响应,即提高了量子效率。

    By comparison , it is concluded that , using silicone can improve blue response of selective emitter solar cell module . In another word , using silicone can improve the quantum efficiency of module .

  2. PVB层压硅太阳电池组件

    PVB laminated silicon solar cell module

  3. 太阳电池组件上纳米多孔SiO2减反射膜的制备和增透性能研究

    Study on the process and properties of nano-porous SiO_2 anti-reflection film applied in the solar module

  4. 为了研究在户外工作条件下太阳电池组件的实际工作性能,在一天过程中的太阳电池组件V-I特性、组件温度、环境温度和太阳辐照度被测试。

    To evaluate PV module performance under actual illumination and temperature operating conditions over the course of a day , V-I characteristics of PV module , operating temperature , ambient temperature and solar radiation were measured .

  5. 微型太阳电池组件的小电流问题分析

    Analysis on the Low Current in the Mini-module of Solar Cells

  6. 新型菲涅尔线聚焦聚光太阳电池组件研究

    A New Concentrators System with Line - focus Fresnel Lens

  7. 中空玻璃式太阳电池组件的热性能研究

    The thermal character of PV module encapsulated with insulating glass

  8. 一种方便准确的太阳电池组件的测试系统

    A convenient and accurate measurement system of solar cell modules

  9. 非晶硅太阳电池组件封装技术及可靠性研究

    Technique of encapsulation and reliability of amorphous silicon solar modules

  10. 多晶硅太阳电池组件及封装材料的研究

    Polycrystalline silicon solar cell module and encapsulation material

  11. GB/T14008-1992海上用太阳电池组件总规范

    General specification for sea-use solar cell modules

  12. 该系统可以在无交流电源的现场对太阳电池组件和阵列进行快速测试,既可直接利用自然光源,也可利用自带光源测量。

    The system can use either natural light source directly or the extern light source .

  13. 蓄冷降温式太阳电池组件供电供热的实验研究

    Experimental study of power and heat supply for building with cool-storage mode solar photovoltaic module

  14. 其研究结果对太阳电池组件的设计和制造具有重要参考价值。

    This result has an important reference value on the solar cell module design and manufacturing .

  15. 太阳电池组件自然通风冷却和电热联用的数值模拟研究

    Numerical Simulation on the Natural Convection Cooling of PV Module and Hybrid PV / T Solar System

  16. 从太阳电池组件背板材料着手,研究了增强太阳电池的散热途径。

    This paper starts from the solar cell component backplane materials , researching the way to enhance cooling .

  17. 因此降低太阳电池组件材料的热阻,加大太阳电池冷却的温差成为重要的任务。

    Therefor both decreasing material thermal resistance of the module and increasing temperature difference in cooling become very important . 3 .

  18. 研制成的多晶硅太阳电池组件的平均效率为9.5%,最高达10.9%。

    The average efficiency for encapsulated polysilicon solar cell in the module is 9.5 % , the highest efficiency is 10.9 % .

  19. 本文报道了一种运用单晶硅太阳电池组件电解水生产实验室应用的超纯氢(99.999%)的试验系统。

    This paper reports a newly developed photovoltaic driven water electrolysis system which produces purified hydrogen ( 99 . 999 % ) .

  20. 针对太阳电池组件焊接过程中存在的问题,运用数值模拟技术分析太阳电池组件焊接工艺中的应力分布情况。

    Stress distribution in the welding process of solar cell module was analyzed by using numerical simulation aimed to the problem in the welding process of solar cell module .

  21. 常规平板式太阳电池组件中,太阳电池处于温度最高点,所能取得的最低温度为大气温度,且只能在太阳辐射为零的条件下取得。

    For the conventional flat-plate modules , the highest temperature appears in solar cell , and its lowest temperature equals to the air temperature only observes when solar radiation is zero .

  22. 研究发现:当前太阳电池组件材料与结构下,太阳电池组件内部热阻太大,导致表面放热系数对于传热的影响减小。

    It was found that under present material and structure of solar photovoltaic module the interior thermal resistance was extremely large that lowered the effect of exterior convective heat transfer coefficient on the heat transfer rate .

  23. 太阳能路灯是太阳能应用产品的重要代表,其应用受到诸多条件的限制,如灯本身特性的限制、灯杆高度的限制、太阳电池组件安装方式的限制和环境条件的限制等。

    Solar light is an important representation of solar energy produces , but its application is restricted by many factor , example of the lamp characteristic , the light pole height , the solar module sitting mode and circumstance condition etc.

  24. 可见这种新颖的散热结构不仅最大程度上减小了聚光太阳电池组件散热器的面积,而且也获得了更高的传热系数和更加一致的散热表面温度分布。

    As can be seen , this novel structure of heat transfer exchanger not only maximally reduces the flat area , but also obtain a much higher heat transfer coefficient an more uniformly temperature distribution of heat exchanger surface . 2 .

  25. 朝向和倾角对光伏阵列性能影响的实验研究表明:朝向正南不同倾角太阳电池组件月平均产出电能的总体趋势与模型计算分析的结果很接近;

    The experiment investigations of the effect of tilt angle and orientation on performance of PV array shows that the effects on the energy yield and the performance of the PV array are almost similar with the result of theoretical calculations ;

  26. 石墨浆做背接触层的碲化镉薄膜太阳电池及组件的研究

    Study on graphite paste for back contact of CdTe thin film solar cells and modules

  27. 太阳光谱对太阳电池组件的输出性能也有一定的影响,当辐照主要以散射为主时,太阳电池组件有更高的转化效率。夕少了动君己己pv。

    Solar radiation spectrum also has a little influence on output performance of PV module , while solar intensity is mostly diffuse skylight , the PV module has a higher efficiency .

  28. 控制系统采用紫外线传感器和光敏电阻组成对太阳光线的探测器,实现了太阳电池组件对太阳的跟踪。

    In its control system , the ultraviolet radiation sensor and photoresistor are used to form a detector to track the sun with solar energy modules .

  29. 该测试仪以微秒级窄脉冲光源为太阳模拟器,可测量单体太阳电池、太阳电池组件及太阳电池方阵。

    This test instrument can be used to test solar cells modules and arrays with microsecond puls solar simulator .

  30. 采用液体排气法和两段层压工艺,消除气体,防止对硅太阳电池和互联条的损伤,压制成有60只2×2cm~2单体的硅太阳电池组件。

    Liquid outgassing and a two-step laminating process are adopted to eliminate the gases and protect the silicon solar cells as well as interconnectors from being damaged . A module consisting of sixty 2 × 2 cm2 silicon solar cells has been fabricated by this method .