Calibration Set-up for Reference Radiosondes Meeting GRUAN Requirements

NCSL International Workshop & Symposium Conference Proceedings 2014 Pub Date : 1900-01-01 DOI:10.51843/wsproceedings.2014.49

H. Sairanen

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Abstract

Accurate and reliable weather observations are necessary for transport, industry and everyday living. Along with ground observations upper air observations provide data for forecasts and for climate change studies However, the quality of upper air measurements does not yet fulfil the requirements of climatologists [1] but improved methods and procedures are needed. To enhance the quality Global Climate Observing System (GCOS) has established GCOS Reference Upper-Air Network (GRUAN) comprising about 40 stations that will provide reference observation data for the global radiosonde station network. GRUAN has specified targets and their priority for measurements of all important parameters at upper troposphere and lower stratosphere [2]. Water vapour pressure is one of the first priority parameters with the uncertainty requirement of 2 % in terms of mixing ratio at the measuring range from 0.1 to 90000 ppm [3]. In order to meet the water vapour accuracy requirements set by GRUAN traceable calibrations for radiosondes are needed. Due to a short lifetime and a high calibration cost comparing to price of a sonde GRUAN aims to ensure radiosondes stability, traceability and uniformity by standards [4]. Regardless of that GRUAN requires calibration and traceability to SI for each radiosonde in order to be accepted to GRUAN [4]. This work presents a new apparatus for reference radiosonde calibrations meeting the GRUAN uncertainty requirements. The apparatus was designed to meet the requirements and still to be quick enough for practical calibration use. Applying a hybrid humidity generator method [5] with two saturators, the high accuracy of a single pressure generator and the short stabilisation time of a flow mixing generator are achieved in a single apparatus. The operation range covers dew-point temperatures from 183 K to 283 K and air temperatures from 183 K to 293 K. This paper presents the design of the apparatus with a preliminary uncertainty analysis.

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符合GRUAN要求的参考无线电探空仪校准装置

准确可靠的天气观测对交通、工业和日常生活都是必要的。与地面观测一起，高空观测为预报和气候变化研究提供了数据。然而，高空测量的质量还不能满足气候学家的要求[1]，需要改进方法和程序。为提高全球气候观测系统(GCOS)的质量，该系统已建立了由约40个台站组成的参考高空网络(GRUAN)，为全球无线电探空站网络提供参考观测数据。GRUAN对对流层上层和平流层下层的所有重要参数的测量都有明确的目标和优先级[2]。在0.1 ~ 90000 ppm的测量范围内，水汽压力是最优先的参数之一，其混合比的不确定度要求为2%[3]。为了满足GRUAN设定的水汽精度要求，需要对无线电探空仪进行可溯源校准。由于与探空仪的价格相比，探空仪的使用寿命短，校准成本高，GRUAN旨在通过标准确保探空仪的稳定性、可追溯性和均匀性[4]。尽管如此，GRUAN要求每个探空仪进行校准并可追溯至SI，以便被GRUAN接受[4]。本文提出了一种满足GRUAN不确定度要求的参考探空仪校准新装置。该仪器的设计既满足要求，又足够快，可用于实际校准。采用两个饱和器的混合式湿度发生器方法[5]，在单个装置中实现了单个压力发生器的高精度和流混合发生器的短稳定时间。工作范围:露点温度183k ~ 283k，空气温度183k ~ 293k。本文介绍了该装置的设计，并进行了初步的不确定度分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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NCSL International Workshop & Symposium Conference Proceedings 2014

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