Implementation of qualification benches according to NF X 15-113

Georgin, Éric; Bondoux, Bruno; Bernard, Nicolas; Salem, Mohsen Ben Hadj; Favreau, Jacques-Olivier; Allan, Darien; Spencer, Roy; Bossennec, V; Larquier, Bernard

doi:10.1051/metrology/20150015009

Cited by 2 publications

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Response time measurement of hygrometers at LNE-CETIAT

Georgin

2019

19th International Congress of Metrology (CIM2019)

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LNE-CETIAT has been involved in European project JRP HIT – EMPIR (www.empir-hit.eu). The objectives of this project were to improve the accuracy of industrial humidity measurements, to provide new traceability capabilities and to develop new calibration techniques at high temperatures up to 180 °C and under transient conditions. Considering the last aspect, LNE-CETIAT has worked on the development of a humidity step generator for studying response time of hygrometers. Indeed, classical calibrations are performed under quasi-static conditions whilst the end users measurement conditions are, most of the time, non-static or dynamic. In order to tackle this situation, LNE-CETIAT has started to developed dynamic humidity generator which enables response time measurement by applying humidity step to the device under test. In this article the test rig is presented as well as results obtained with chilled mirror hygrometers. A discussion about response time of chilled mirror concludes this work.

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Response time measurement of hygrometers at LNE-CETIAT

Georgin

2019

19th International Congress of Metrology (CIM2019)

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DynH ₂ O: Aufbau zur metrologischen Charakterisierung der dynamischen Eigenschaften von Hygrometern

Witt

Schuchard

Ebert

2022

Tm - Technisches Messen

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A novel flow switching setup for the dynamic generation and metrological detection of fast, isolated H2O concentration changes is presented and characterized. Based on this flow setup, very accurate, static H2O concentrations as well as highly dynamic H2O step changes of several 1000 ppmv (µmol/mol) can be generated and repeated. First experiments show that temporal water vapor concentration gradients of up to 10000 ppmv/s can be generated and measured. Based on this setup, a dynamic hygrometer characterization method was developed and demonstrated using a polymer-based hygrometer as device under test (DUT). The polymer hygrometer (with about 180 ppmv/s) proved to be more than 15 times slower than the optical reference hygrometer (with 3000 ppmv/s) and could be modeled and described well with a first order lowpass. To estimate the dynamics of the spatial and temporal H2O-profile, a fast, traversable, local sampling probe was developed and used in combination with a fast, extractive laser hygrometer (called SEALDH-II). The modeling of the H2O distribution in the dynamically operated flow channel enables the calculation of the dynamic concentration at the position of the DUT based on the data of the spatially averaging open-path laser reference hygrometer. In the future, this calculation will be used to determine a transfer function between the optical, open path reference hygrometer and the position of the DUT in order to extract the ideal step response of the DUT from the measured data of the flow channel.

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Implementation of qualification benches according to NF X 15-113

Cited by 2 publications

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Response time measurement of hygrometers at LNE-CETIAT

Response time measurement of hygrometers at LNE-CETIAT

DynH ₂ O: Aufbau zur metrologischen Charakterisierung der dynamischen Eigenschaften von Hygrometern

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Implementation of qualification benches according to NF X 15-113

Cited by 2 publications

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Response time measurement of hygrometers at LNE-CETIAT

Response time measurement of hygrometers at LNE-CETIAT

DynH 2 O: Aufbau zur metrologischen Charakterisierung der dynamischen Eigenschaften von Hygrometern

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DynH ₂ O: Aufbau zur metrologischen Charakterisierung der dynamischen Eigenschaften von Hygrometern