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An array consisting of four commercial gas sensors with target specifications for hydrocarbons, ammonia, alcohol, explosive gases has been constructed and tested. The sensors in the array operate in the dynamic mode upon the temperature modulation from 350°C to 500°C. Changes in the sensor operating temperature lead to distinct resistance responses affected by the gas type, its concentration and the humidity level. The measurements are performed upon various hydrogen (17-3000 ppm), methane (167-3000 ppm) and propane (167-3000 ppm) concentrations at relative humidity levels of 0-75%RH. The measured dynamic response signals are further processed with the Discrete Fourier Transform. Absolute values of the dc component and the first five harmonics of each sensor are analysed by a feed-forward back-propagation neural network. The ultimate aim of this research is to achieve a reliable hydrogen detection despite an interference of the humidity and residual gases.

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Temperature Modulated Response of Gas Sensors Array - Humidity Interference

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Brudnik

Zakrzewska

2012

Procedia Engineering

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TiO2: Cr nanopowders for hydrogen sensing

Łysoń

Gwiżdż

Czapla

et al. 2011

Procedia Engineering

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Array of Chromium Doped Nanostructured TiO2 Metal Oxide Gas Sensors

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Radecka

Zakrzewska

2014

Procedia Engineering

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P. Gwiżdż

Nanopowders of chromium doped TiO2 for gas sensors

Hydrogen Detection With a Gas Sensor Array – Processing and Recognition of Dynamic Responses Using Neural Networks

Temperature Modulated Response of Gas Sensors Array - Humidity Interference

TiO2: Cr nanopowders for hydrogen sensing

Array of Chromium Doped Nanostructured TiO2 Metal Oxide Gas Sensors

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