SU563586A1 - Combined nozzle for measuring gas stream pressure - Google Patents

Description

one

The invention relates to devices for measuring gas flow parameters.

Nozzles are known for measuring the pressure of a gas stream containing a static pressure receiver 1. These nozzles provide a measurement of only the static pressure of the gas stream and do not allow one to judge its other parameters.

Combined nozzles for measuring the pressure of a gas stream are known, containing a static pressure receiver, inside of the casing of which an axisymmetric full pressure receiver with a circular receiving opening 2 is placed.

However, the known combined nozzles do not allow measuring the deceleration temperature of the flow simultaneously with the pressure, and the information obtained with their help is not sufficient to completely describe the state of the gas.

In order to obtain additional information on the stagnation temperature of the flow inside the full pressure receiver, a tube is placed coaxially with a thermocouple placed in its cavity, one of the ends of the tube extending out of the receiving opening and the other connected by a channel with the external surface of the static pressure receiver housing.

The drawing schematically shows the proposed nozzles in the section.

The nozzle comprises a static pressure receiver, the side surface of the housing 1 of which is formed with receiving openings 2 (one hole is shown). Inside the housing there is an axisymmetric full pressure receiver 3 with a circular receiving opening 4. The full pressure receiver hole is connected. The pneumatic rail 5 is connected to a recording device. Inside the receiver of full pressure, the tube 6 is coaxially fixed with 1 thermal thermostat placed in its cavity.

One of the ends of the tube 6 is extended outward from the receiving opening 4, and the other is connected by a channel 8 with the outer surface 9 of the body of the static pressure receiver.

Combined nozzles works as follows. When placed in a gas stream, a static pressure is drawn through aperture 2. An annular gap between the edge of the orifice 4 and the tube 6 is used to select the total pressure. Through the tube 6, the gas flows to the thermocouple junction, the temperature of which determines the gas deceleration temperature. Accurate temperature measurement is provided by ventilating a thermocouple spa using channel 8.

Offset of the end of the tube 6 relative to the receiving opening 4 eliminates the fault

measurements of the total pressure caused by the movement of gas in the tube 6. Experimental studies have found that at low flow rates the amount of displacement should be 4-6 tube diameters. Due to the complex nature of the measurements, the combined nozzle makes it possible to shorten the time for testing gas-dynamic flows and improve the measurement accuracy.

Claims (2)

1. Gorlin S.M., Slezinger I.I. Aeromechanical measurements. M., “Science, 1964, p. 205-211. 2. Gorlin S.M., Slezinger I.I. Aeromechanical measurements. M., “Science, 1964, p. 221. e 5 -S -eight