SU519634A1 - Nozzles for measuring total pressure - Google Patents

Description

(54) TIPS FOR MEASURING COMPLETE PRESSURE

one

The invention relates to the field of instrumentation technology, in particular to devices for determining the parameters of supersonic gas flows.

Nozzles for measuring total pressure in high-temperature gas flows are known, which contain a receiving tube made of a metal with a high thermal conductivity 1.

Nozzles are known for measuring the total pressure of supersonic gas flows containing a receiving tube, the open end of which is directed towards flow 2.

However, when measured in rarefied supersonic high-temperature flows, the readings of the known nozzles can be very different from the measured value of the full drift.

In order to improve measurement accuracy in rarefied high-temperature gas flows, the ratio of the length of the receiving tube channel to its diameter ranges from 3 to 5.

Nozzles for measuring total pressure are shown schematically in the drawing. It contains a receiving tube 1, the open end of which is directed towards the flow, a pressure sensor 2 and a pneumatic track 3. A thermocouple 4 is installed on the walls of the receiving tube. The thermocouple is placed in a groove or flush with the surface of the tube at a distance from the end.

approximately equal to the radius of the pipe. The ratio of the diameter of the receiving tube channel to the outer diameter of the receiving tube and the ratio of the channel length of the receiving tube to its diameter is in the range from 0.7 to 0.9 and from 5 to 5, respectively.

The nozzles are equipped with a water-cooled jacket. The winding inlet part of the receiving tube is made of a material, one hundred): who :: has a high thermal conductivity, such as molybdenum. This makes it possible to reduce the erosion of the receiving tube when measuring in a high-temperature flow and lower the temperature of the receiving tube. The receiving tube is connected to the pneumatic guide through an adapter, which allows clever sewing of disturbances introduced into the flow pasadcol ;. The temperature of the walls of the receiving tube is measured with the help of a thermobar and a constant flow rate, cooling nozzle.

In free-molecular gas flows, the total pressure nozzles are shown depending on the ratio of the sizes n temperature T, the receiving pipe, Mach number A-1 of the deceleration temperature 7 °, which requires the introduction of an amendment to determine the true value of the total pressure. Selection of the ratio of the length of the receiving tube channel to its diameter in the limit

from 3 to 5 leads to the fact that when Go 1000-