聚丙烯酰胺在酸碱中性介质中均呈现阳电性。
本文的主要内容是介绍晶体硅太阳电池选择性扩散新工艺和表面钝化的理论研究。
It is described that the innovatory technology of selective diffusion and study on surface passivation in theory for crystalline silicon solar cell.
通过测试,表明了所制得的太阳电池具有选择性发射极结构。
After testing, these solar cells are proved to be the selective emitter solar cells.
在深入地分析其优点的同时论证了选择性发射极结构是提高太阳电池光电转换效率的有效途径。
Then the selective emitter solar cell structure is proved to be an effective way to improve the solar cell conversion efficiency in the course of deeply analyzing on its advantages.
本文含有两方面的研究内容:选择性发射极太阳电池的研究和光伏工程最佳倾角的设计研究。
Tow parts are included in the paper: the study on the single crystalline silicon selective emitter solar cell and study on optimum slope design in PV engineering.
以闪光光强分布的均匀性测量为例,介绍了太阳电池电性能测量光照均匀性瞬态测量系统及其修正方法。
As an example, the paper then describes a newly developed light pulse irradiant uniformity measurement system and the correction method for its measurement result.
太阳电池组件采用四线连接,以及高速数据采集系统,确保了太阳电池电流测量的准确性。
The solar cell module adopts four-wire connection. It uses high-speed data acquisition system. It ensures the accuracy of the current measurements of the solar cell.
指出了选择性发射极太阳电池结构的特征。
The characters of the selective emitter solar cell structure are described in this paper.
所得结果与使用液体电解质组装的大阳电池具有一定的可比性。
The results are found to be comparable to those using liquid electrolytes.
本文提出一种实现太阳电池输出最大功率的跟踪控制方法,给出实验结果,证实这一控制方法的可行性和有效性。
A maximum power tracking control method of solar cell is proposed. The results obtained from experiments show that this method is feasible and effective.
直接将太阳电池板电流作为量测量进行姿态确定,不仅可观性不高,也不利于计算量的减少。
If the current generated by solar panels are used as measurements for attitude determination, not only the observability is low, but also it is disadvantageous to the decrease of computation.
文章通过试验和计算阐明“探测一号”卫星的周期性磁场干扰信号是来源于太阳电池壳,由于壳内表面的电流布线所致。
Test and calculation explain that cyclical magnetic field disturbances of TC-1 spacecraft come from the wiring of the electric current string at the back of solar panel.
这些粘合剂和密封材料有很大的兼容性,可以应用于太阳能集热器,光伏模块和聚光太阳电池的组装过程。
These adhesives and encapsulants are compatible with most materials commonly used in the assembly of Solar collectors, PV modules and (CPV) concentrator cells.
展馆外部透光性高的双层外膜配以内部的太阳电池,能够充沛应用太阳能资本;展馆内将运用轮回式呼吸孔道等最新手艺。
Hall of external layer of high transmittance within the outer membrane accompanied by solar cell, can take advantage of solar energy resources;
展馆外部透光性高的双层外膜配以内部的太阳电池,能够充沛应用太阳能资本;展馆内将运用轮回式呼吸孔道等最新手艺。
Hall of external layer of high transmittance within the outer membrane accompanied by solar cell, can take advantage of solar energy resources;
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