Calibration of non‐catching precipitation measurement instruments: A review

L. G. Lanza; A. Merlone; A. Cauteruccio; E. Chinchella; M. Stagnaro; M. Dobre; M. C. Garcia Izquierdo; J. Nielsen; H. Kjeldsen; Y. A. Roulet; G. Coppa; C. Musacchio; C. Bordianu; M. Parrondo

doi:10.1002/met.2002

Meteorological Applications (May 2021)

Calibration of non‐catching precipitation measurement instruments: A review

L. G. Lanza,
A. Merlone,
A. Cauteruccio,
E. Chinchella,
M. Stagnaro,
M. Dobre,
M. C. Garcia Izquierdo,
J. Nielsen,
H. Kjeldsen,
Y. A. Roulet,
G. Coppa,
C. Musacchio,
C. Bordianu,
M. Parrondo

Affiliations

L. G. Lanza: Department of Civil, Chemical and Environmental Engineering University of Genova Genoa Italy
A. Merlone: Istituto Nazionale di Ricerca Metrologica, Applied Thermodynamics Program Torino Italy
A. Cauteruccio: Department of Civil, Chemical and Environmental Engineering University of Genova Genoa Italy
E. Chinchella: Department of Civil, Chemical and Environmental Engineering University of Genova Genoa Italy
M. Stagnaro: Department of Civil, Chemical and Environmental Engineering University of Genova Genoa Italy
M. Dobre: Federal Public Service Economy, Metrology, National Standards Belgium
M. C. Garcia Izquierdo: Centro Español de Metrología Tres Cantos (Madrid) Spain
J. Nielsen: Danish Technological Institute Aarhus Denmark
H. Kjeldsen: Danish Technological Institute Aarhus Denmark
Y. A. Roulet: Federal Office of Meteorology and Climatology MeteoSwiss Payerne Switzerland
G. Coppa: Istituto Nazionale di Ricerca Metrologica, Applied Thermodynamics Program Torino Italy
C. Musacchio: Istituto Nazionale di Ricerca Metrologica, Applied Thermodynamics Program Torino Italy
C. Bordianu: National Metrology Institute of the Republic of Moldova Chisinau Moldova
M. Parrondo: Centro Español de Metrología Tres Cantos (Madrid) Spain

DOI: https://doi.org/10.1002/met.2002
Journal volume & issue: Vol. 28, no. 3
pp. n/a – n/a

Abstract

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Abstract Non‐catching type gauges are the emerging class of in situ precipitation measurement instruments. For these instruments, rigorous testing and calibration are more challenging than for traditional gauges. Hydrometeors characteristics like particle size, shape, fall velocity and density must be reproduced in a controlled environment to provide the reference precipitation, instead of the equivalent water flow used for catching‐type gauges. They are generally calibrated by the manufacturers using internal procedures developed for the specific technology employed. No agreed methodology exists, and the adopted procedures are rarely traceable to internationally recognized standards. The EURAMET project 18NRM03 ‘INCIPIT’ on ‘Calibration and accuracy of non‐catching instruments to measure liquid/solid atmospheric precipitation’, funded by the European Metrology Programme for Innovation and Research (EMPIR), was initiated in 2019 to investigate calibration and accuracy issues of non‐catching measuring instruments used for liquid/solid atmospheric precipitation measurement. A survey of the existing models of non‐catching type instruments was initially performed and this paper provides an overview and a description of their working principles and the adopted calibration procedures. Both literature works and technical manuals disclosed by manufacturers are summarized and discussed, while current limitations and metrological requirements are identified.

Published in Meteorological Applications

ISSN: 1350-4827 (Print); 1469-8080 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Physics: Meteorology. Climatology
Website: https://rmets.onlinelibrary.wiley.com/journal/14698080

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