无线电探空仪

  • 网络Radiosonde;radiosondes;Radio sonde
无线电探空仪无线电探空仪
  1. 在野外实验中与无线电探空仪对比,在3km以下,温度层结偏差2&3°K。

    In the field test , as compared with radiosonde , the mean temperature deviation was 2-3 K below 3 km .

  2. 利用瑞利激光雷达和无线电探空仪观测数据对武汉上空重力波特性的研究

    Gravity wave characteristics observed by lidar and radiosonde in Wuhan

  3. 常用的高空气象探测方法是采用无线电探空仪,由探空气球携带升空,进行高空气象测量。

    Common aerological detection is taken by radiosonde carried by sounding balloon .

  4. 中国中部低层大气行星波无线电探空仪的观测研究

    Radiosonde Observation of Planetary Waves in the Lower Atmosphere Over the Center China

  5. 无线电探空仪可以自由地上升到尽可能高的高度。

    A radiosonde is free to rise to as great an elevation as possible .

  6. (联合装置)无线电探空仪和雷达测风排汽联合装置在直接空冷电厂的应用

    Radiosonde and radar wind sounding Application o " fCombined Steam Exhaust Device " in Direct Air-Cooling Power Plants

  7. 海洋不能象我们在陆地那样通过无线电探空仪获得准确的气象资料。

    Because we cannot get the atmospheric parameters over the ocean as the land that get from the radiosonde .

  8. 无线电探空仪作为目前主要的高空观测手段之一,仅测量了影响结冰强度的温湿度等常规气象条件。

    As one of the primary aerial aerograph , the radiosonde mainly measuring the temperature and humidity what affects the intensity of icing .

  9. 海岸无线电探空仪(大气测量探针)每六小时抽查风样,同时有三条大洋科研考察船有规律的放出带有传感器的气球。

    Coastal radiosondes ( probes for taking atmospheric measurements ) are released to pick up winds every six hours , and three ocean research ships regularly release balloons with sensors .

  10. 通过分析美国墨西哥湾沿岸地区9个站点1998-2005年8年的无线电探空仪观测资料,研究了当地信风逆温层的一些特性。

    The radiosonde observations of eight years ( 1998-2005 ), launched from 9 stations over the Gulf of Mexico coastlands of the U.S. , are analyzed to investigate local characteristics of Trade-Wind Inversion ( TWI ) .

  11. 通过分析武汉、宜昌和恩施气象局无线电探空仪2001&2003年的观测数据,研究了中国中部地区对流层和低平流层中行星波的特性。

    Wind data by the radiosonde observation from Wuhan , Yichang , and Enshi Meteorological Stations in the period of 2001 & 2003 are used to analyze the Planetary Waves ( PWs ) in the lower atmosphere of the center China .