Fast-response total pressure probe for turbomachinery application |
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Authors: | Jeong-Seek Kang Soo-Seok Yang |
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Affiliation: | 1.Enginee Department,Korea Aerospace Research Institute,Deajeon,Korea;2.Aeropropulsion System Department,Korea Aerospace Research Institute,Deajeon,Korea |
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Abstract: | To evaluate the accurate performance and characteristics of turbomachinery, it is important to measure the unsteady flow phenomena
downstream of the rotating blades. This paper presents the development of a fast-response total pressure probe for the measurement
of the total pressure field at the exit of blades. The result of measurement in a one-stage axial turbine is also presented.
The fast-response total pressure probe is fabricated by installing a fast-response pressure sensor in the cylindrical head
of the probe. In terms of simplicity of the measurement system and data reduction method, this method is more competitive
over established methods that use more than four sensors. The probe is applied to the one-stage axial turbine in order to
measure the instantaneous total pressure downstream of rotor blades. The measured instantaneous signal is decomposed to obtain
the blade-to-blade pressure distribution. The pressure distribution due to blade passing is clearly captured. Due to the loss
generation in the casing region, the total pressure and its amplitude of fluctuation by the blade passing are lower in the
shroud and hub region than in mid-span. The total pressure distribution at the exit of the rotor blade is found to be slightly
different from blade to blade due to the geometric difference and the different relative positions of the rotor blades and
stator vanes. The developed probe successfully measures the accurate total pressure distribution at the rotor exit, and allows
the evaluation of the loss distribution and the accurate performance of turbomachinery. |
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