atmospheric water vapor信息详情
大气水蒸汽
atmospheric water heater───常压热水器
atmospheric───adj.大气的,大气层的
vapor───n.蒸气;水蒸气(等于vapour)
vapor max───蒸汽最大值
vapor rub───蒸汽摩擦
vapor beast───蒸汽野兽
atmospheric pressure───[气象]大气压力,大气压强;n.大气压力
solace vapor───日光蒸汽
atmospheric circulation───[气象]大气环流;大气循环
Polar mesospheric clouds are extremely sensitive to changes in atmospheric water vapor and temperature.───大气环境的微妙变化,而这也许和温室气体的变化有关”迪兰如是说。 极地中间层的云对大气中水汽和温度十分敏感。
calculation research of retrieving atmospheric water vapor with GPS was made, using theories of Ground Based GPS Meteorology.───运用地基GPS气象学的理论,进行了反演大气水汽含量的计算研究。
Error analysis and evaluation for the remote sensing of atmospheric water vapor by using ground based GPS are discussed and presented in the paper.───讨论并分析了利用地基GPS遥感大气水汽含量时的误差源及其数值评估。
On Earth, it is the condensation of atmospheric water vapor into drops of water heavy enough to fall, often making it to the surface.───在地球上,是大气水蒸气凝结成水滴的重量达到下,经常在表面。
Atmospheric water vapor samples collected simultaneously 15.───同步采集大气水汽样品15个。
Atmospheric water vapor transport from westerly and monsoon over the Northwest China───西风带与季风对中国西北地区的水汽输送
Variation of atmospheric water vapor with climate and its impact on water resources of North China───华北地区大气水分气候变化及其对水资源的影响
Research on Retrieval of the Amount of Atmospheric Water Vapor over Qinghai-Xizang Plateau───青藏高原大气总水汽量的反演研究
Atmospheric Water Vapor Experiment with the Mixed Single- and Dual-frequency Ground-based GPS-met Network in Beijing───北京地区单双频地基GPS大气水汽遥测试验与研究
The key to manufacture of storable fuels on Mars lies in the use of water-bearing surface materials, not atmospheric water vapor.
And atmospheric water vapor distribution and change are studied synthetically based on GPS, radiosonde and other ground weather observations data over Tibet Plateau and around area.
In order to verify the reliability of MODIS atmospheric precipitable water vapor, we used the NCEP atmospheric water vapor data.
The microwave spectrum of water vapor molecule is outlined. The feasibility and characteristics of remote sensing of atmospheric water vapor profiles by use of 1.348 cm absorption band are discussed.