1.
Climatic characteristics of the first tropopause height over Liaoning province
辽宁地区第一对流层顶高度变化特征分析
2.
Analysis on Seasonal Variation of two types of Tropopause Height over Tibetan Plateau
青藏高原两类对流层顶高度的季节变化特征分析
3.
A new method for improving the solving precision of tropospheric zenith total delay
提高对流层天顶总延迟解算精度的新方法探讨
4.
The altitude of maximum temperature is called the stratopause.
极大值温度的高度称为平流层顶。
5.
Variation Characteristics of Tropopause Temperature and Height From COSMIC
利用COSMIC数据分析全球对流层顶温度和高度的变化特性
6.
The lowest region of the atmosphere between the earth's surface and the tropopause, characterized by decreasing temperature with increasing altitude.
对流层位于地表及对流层顶的大气最低层;气温随高度的增加而降低
7.
A Laboratory and Numerical Simulation of the Entrainment Rate on the Top of CBL
对流边界层顶部夹卷速度参数化的模拟研究
8.
Analysis on Some Evidences and the Saltatory Change of Temperature of the First Tropopause over Xinjiang since Recent 40 Years;
近40a来新疆极地类对流层顶温度变化的若干事实和突变分析
9.
The Precision Analysis of Troposphere Zenith Delay Resolution in Kinematic GPS and the Discussion of Real Time Water Vapor Inversion
动态GPS中对流层天顶延迟解算精度分析及实时水汽反演探讨
10.
Precision Improvemen of Tropospheric Zenith Path Delay Estimation by Precise Point Positioning
精密单点定位方法测量对流层天顶延迟的精度改善
11.
The building top layer is cut off decreases the altitude.
建筑物的顶层将被拆去以减低高度。
12.
Characteristics of Tropopause Over Wuhan and Haikou
武汉与海口地区对流层顶的变化特征
13.
Improved model of tropospheric zenith delay for GPS signal
GPS信号对流层天顶延迟改进模型研究
14.
As the rise of the height, how does the temperature of troposphere and stratosphere flow change respectively?
随高度的上升,对流层和平流层的气温分别是怎样变化的?
15.
The new methods of burden distribution with width burden in a bell-less top blast furnace
高炉无钟炉顶按料流宽度布料新方法
16.
Application of high density resistivity method to determination of aquifer thickness in top rock
应用高密度电阻率法探测顶板基岩含水层厚度
17.
Influence of mining height of main roof on broken length
采高对浅埋煤层老顶岩层破断距的影响
18.
Application of the high density electrical prospecting to rich water survey of downhole coal plate.
高密度电法探测井下煤层顶板富水性效果