A miniature optical extinction heated probe for fog droplet measurements in steam turbines

A miniature optical extinction heated probe for fog droplet measurements in steam turbines

The knowledge of droplet size distribution and concentration allows us to calculate the wetness fraction and the isentropic turbine efficiency as well as to provide significant data for erosion modeling. For that purpose, a miniature optical extinction probe with a diameter of 9.4mm was designed, ma...

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Bibliographic Details
Published in:E3S Web of Conferences Vol. 345; p. 1001
Main Authors: Bosdas, Ilias, Mansour, Michel, Kalfas, Anestis I., Abhari, Reza S.
Format: Journal Article Conference Proceeding
Language:English
Published: Les Ulis EDP Sciences 2022
Subjects:
Algorithms
Atomizing
Contamination
Diameters
Droplets
Extinction
Fog
Optical components
Phase Doppler Anemometer
Size distribution
Steam turbines
Turbidity
Velocity measurement
Water pollution
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Summary:The knowledge of droplet size distribution and concentration allows us to calculate the wetness fraction and the isentropic turbine efficiency as well as to provide significant data for erosion modeling. For that purpose, a miniature optical extinction probe with a diameter of 9.4mm was designed, manufactured and tested. The probe is equipped with a heater, which maintains all optical components of the probe clean from any water contamination. In this paper the matrix inversion algorithm is presented in order to calculate the droplet diameter and concentration out of the spectral turbidity measurements. An ultrasonic atomizer was characterized in terms of droplet size and concentration with an established Phase Doppler Anemometry (PDA) system in order to have a reference spray environment for the proof of concept of the newly developed probe. Measurements were performed and results have shown a good agreement between the PDA technique and the optical extinction probe at various axial locations from the nozzle exit of the droplet generator.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/202234501001