With more greenhouse gases released to the atmosphere due to human activity , more infrared radiation will be trapped in the earth s surface which contributes to the enhanced greenhouse effect 但由于人类活动释放出大量的温室气体,结果让更多红外线辐射被折返到地面上,加强了温室效应的作用。
After the treatment of multi - layers magnetization , far infrared ray radiation and the incandescence light effect , the sterilization rate can reaches 80 % , and can effectively reduce the bacteria ' s propagation space 水通过多层磁化及远红外线辐射及白炽光的作用,使水中的细菌杀死率达到80 %以上,减少细菌的繁殖空间。
Any of several devices that convert incident electromagnetic radiation of mixed frequencies to one or more discrete frequencies of highly amplified and coherent ultraviolet , visible , or infrared radiation 激光器使偶然的混杂频率的电磁辐射,变为一个或更多的高度强化和连续的紫外线、可见光或红外线辐射的分离频率仪器中的一种
Increase of greenhouse gases concentration causes a reduction in outgoing infrared radiation , thus the earth s climate must change somehow to restore the balance between incoming and outgoing radiation . this climatic change 温室气体浓度的增加会减少红外线辐射放射到太空外,地球的气候因此需要转变来使吸取和释放辐射的份量达至新的平衡。
Due to greenhouse gases , the atmosphere absorbs more infrared energy than it re - radiates to space , resulting in a net warming of the earth - atmosphere system and of surface temperature . this is the natural greenhouse effect 但受到温室气体的影响,大气层吸收红外线辐射的份量多过它释放出到太空外,这使地球表面温度上升,此过程可称为天然的温室效应。
The adoption of patent technology iodine tungsten lamp red heating can incorporate the energies of electricity , light and infrared ray radiation into a whole ; and the water absorption rate can reach the best with the effects of radiation , conduction , convection and function of light energy 专利技术碘钨灯红加热,集电能、光能、红外线辐射于一体,利用辐射、传导、对流及光能的作用使水吸热率达到最佳。
A lidar uses infrared radiation ( wavelength of about 210 , 000 cm ) to detect movement of aerosols and derive the wind speed and windshear . its working principle is the same as the tdwr , except that the tdwr utilizes microwave ( wavelength of about 5 cm ) to detect movement of raindrops and computes the wind speed ( fig . 9 ) Lidar利用红外线辐射(波长约万份之二厘米)探测空气中的悬浮粒子,从而得出风速和风切变的资料,运作原理与tdwr相同,唯一不同的是, tdwr利用微波(波长约5 )探测雨点的移动从而计算出风速(图九) 。
A lidar uses infrared radiation wavelength of about 2 10 , 000 cm to detect movement of aerosols and derive the wind speed and windshear . its working principle is the same as the tdwr , except that the tdwr utilizes microwave wavelength of about 5 cm to detect movement of raindrops and computes the wind speed fig . 9 Lidar利用红外线辐射波长约万份之二厘米探测空气中的悬浮粒子,从而得出风速和风切变的资料,运作原理与tdwr相同,唯一不同的是, tdwr利用微波波长约5探测雨点的移动从而计算出风速图九。