太阳光电能否在美国能源部门扮演重要角色?
Can Photovoltaics Play a Significant Role in the U. S. Energy Sector?
本发明公开了一种增强光反射的封装材料、硅晶太阳光电模块及薄膜太阳光电模块。
The invention discloses a packaging material for strengthening light reflection, a silicon solar photoelectric module and a film solar photoelectric module.
纳米结构能帮助太阳能电池板吸收光线,提高发电量达百分之三十以上(参见“TR10:光捕捉的太阳光电”和“太阳能电池运用纳米颗粒捕捉更多的阳光”)。
Nanostructures help solar panels absorb light, increasing their power output by 30 percent or more (TR10: Light-Trapping Photovoltaics and solar Cells Use Nanoparticles to Capture more Sunlight).
充满氦气球体的表面是薄膜。柔软的光电板用来捕获太阳光线。
The helium-filled globes will be covered with thin-film, flexible photovoltaic panels to capture sun’s rays.
每块板上包含的把可以太阳光浓缩400倍的小晶体,主要成分是砷化镓光电池。并且跟随太阳轨迹双轴工作。
Each panel contains small lenses that concentrate sunlight by 400 times onto strips containing gallium arsenide photovoltaic cells. Dual-axis trackers follow the sun's trajectory.
每块板上包含的把可以太阳光浓缩400倍的小晶体,主要成分是砷化镓光电池。
Each panel contains small lenses that concentrate sunlight by 400 times onto strips containing gallium arsenide photovoltaic cells.
卡纳卡公司说,塑料光电板可以吸收“各种波长”的太阳光,这种光电板可以安装在垂直的墙面上。
Plastic PV, say the company, can absorb sunlight from "all sorts of ranges" allowing it to be installed onto vertical walls.
更重要的是光电太阳能电池,它是一种关键的技术能直接将太阳光转化成电力。
More important are photovoltaic solar cells, a rival technology that converts sunlight directly to electricity.
这就是把太阳光转化为电的光电电池的一种。
This is one of the photovoltaic cells that convert sunlight to electricity.
但是,增长最迅速且最有活力的太阳能领域是太阳能光电池,其电能是直接利用太阳光照射到太阳能电池上而产生出来的。
However, the most quickly growing and most vibrant solar sector has been photovoltaics, where electricity is generated directly by shining sunlight onto solar cells.
光电技术利用半导体捕获太阳光能,然后把太阳光能转换成电能。
Photovoltaic technologies use semiconductors to trap the son "s light and convert it to electricity."
光电技术利用半导体捕获太阳光能,然后把太阳光能转换成电能。
Photovoltaic technologies use semiconductors to trap the son "s light and convert it to electricity."
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