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- Title
Effect of gas temperature on flow rate characteristics of an averaging pitot tube type flow meter.
- Authors
Yeo, Seung; Lee, Su; Lee, Choong
- Abstract
The flow rate characteristics passing through an averaging Pitot tube (APT) while constantly controlling the flow temperature were studied through experiments and CFD simulations. At controlled temperatures of 25, 50, 75, and 100°C, the flow characteristics, in this case the upstream, downstream and static pressure at the APT flow meter probe, were measured as the flow rate was increased. The flow rate through the APT flow meter was represented using the H-parameter (hydraulic height) obtained by a combination of the differential pressure and the air density measured at the APT flow meter probe. Four types of H-parameters were defined depending on the specific combination. The flow rate and the upstream, downstream and static pressures measured at the APT flow meter while changing the H-parameters were simulated by means of CFD. The flow rate curves showed different features depending on which type of H-parameter was used. When using the constant air density value in a standard state to calculate the H-parameters, the flow rate increased linearly with the H-parameter and the slope of the flow rate curve according to the H-parameter increased as the controlled target air temperature was increased. When using different air density levels corresponding to each target air temperature to calculate the H-parameter, the slope of the flow rate curve according to the H-parameter was constant and the flow rate curve could be represented by a single line. The CFD simulation results were in good agreement with the experimental results. The CFD simulations were performed while increasing the air temperature to 1200 K. The CFD simulation results for high air temperatures were similar to those at the low temperature ranging from 25 to 100°C.
- Subjects
PITOT tubes; FLOW meters; TEMPERATURE effect; STATIC pressure; DIFFERENTIAL pressure flowmeters; HYDRAULICS
- Publication
Journal of Mechanical Science & Technology, 2015, Vol 29, Issue 1, p241
- ISSN
1738-494X
- Publication type
Article
- DOI
10.1007/s12206-014-1230-z