另一种正在探索的回收热量方式是用类似太阳能电池板的光伏电池捕捉红外线。
Another way to recycle heat that is being explored is to capture infrared with photovoltaic cells similar to those used in solar panels.
广角红外线探测望远镜需要扫描天域2遍以便生成时间释放图像,天文学家将用这些图像侦测外太阳系的天体。
WISE needs to scan the sky twice in order to generate the time-lapsed images astronomers use to detect objects in the outer solar system.
虽然科学家知道了极光的成因,但是它究竟如何影响地球仍是一个疑问。尽管红外线摄像机能够捕捉到太阳风暴,而极光依然是一种神秘之物。
While scientists know the cause of the aurora, exactly how it affects earth is still in question. Though infrared cameras have captured solar storms, the aurora remains a mystery.
然而太阳光谱中有大量的红外线,如不加以利用未免有些愚蠢。
But there is a lot of infra-red in the spectrum, so it seems silly to ignore it.
太阳(和其它任何热的物体)持续辐射红外线,地球吸收红外辐射,并将它转换为原子或分子的运动,即热。
The Sun (and anything warm) is constantly emitting infrared, and the Earth absorbs it and turns the energy into atomic and molecular motion, or heat.
远红外线是在所有太阳光中最能够深入皮肤和皮下组织的一种射线。
Among the sun's rays, the far infrared ray can go deepest into skin and subcutaneous tissues.
它可吸收红外线,减少进入室内的太阳辐射,降低室内温度。
It can absorb infrared rays so as to reduce the solar radiation into indoor space and lower indoor temperature.
第一代太阳能电池中的塑料材料采用纳米技术,它能够利用太阳能谱中不可见的红外线。
The plastic material uses nanotechnology and contains the first solar cells able to harness the sun's invisible, infrared rays.
2011年9月29日。美国航空航天局举行一个会议更新在我们的太阳系中,有关近地小行星的数据库信息,由广角红外线探测望远镜(WISE)跟踪的。
Sept. 29, 2011. NASA held a conference for updating information about the database of near-Earth asteroids in our solar system, tracked by Wide-field Infrared Survey Explorer (WISE) telescope.
愈低的红外线值,太阳能辐射就愈低。
The lower the Infrared Transmission Value, the lower the corresponding Solar Heat Gain Coefficient.
愈低的红外线值,太阳能辐射就愈低。
The lower the Infrared Transmission Value, the lower the corresponding Solar Heat Gain Coefficient.
应用推荐