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The 5-hole pitot probe is suitable for velocity measurements in a multi-directional flow field. The total pressure is measured with a central hole on the hemispherical head and the static pressure through four circumferential holes at right angles to the flow direction. This permits correct readings, even when the probe is at an angle to the flow, (-2% error for +10' maximum orientation). Providing the local temperature and composition (giving the density) is known, the velocity is determined directly from the Bernoulli equation as the calibration constant is very close to unity.

From the measured pressure distribution around the hemispherical head (central tapping surrounded by four others at 45' to the axis), the two spherical angle co-ordinates and recovery factor (for velocity magnitude) may be determined from calibration charts giving them as a function of three ratios of pressure differentials. The local density must be known in order to determine the magnitude of the velocity.

The accuracy and sensitivity of the 5-hole pitot probe has been improved by using smaller pressure holes than those indicated by the standards whilst maintaining an uncooled length of 35 mm at the head (stainless steel 18/8). This reduces the risk of blockage by condensed water or dust deposits. For the same reason, periodic blowing through the probe with compressed air is needed. This can be automatically achieved with a pressure measuring system similar to that used at the Research Station. When accurate transducers are used, velocity magnitudes in the range 5-50 m/s may be accurately determined (within 5%). Moreover, the calibration constants for this probe were found to be unaffected by variations of turbulence intensity from 1 to 20%.

VENDOR: IFRF Research Station b.v.

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• getting more information about this measurement equipment?

Please contact us:

IFRF Research Station B.V.
P.O. Box 10 000
1970 CA IJmuiden
The Netherlands

email: sales@ifrf.net