SU453589A1 - GAS TEMPERATURE SPRAYER - Google Patents

Description

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The present invention is intended to measure the gas temperature of a gas turbine engine.

A jet gas temperature sensor is known, which comprises a jet generator, the output channels of which are connected to the input channels of the jet rectifier.

The resulting output signal is directly proportional to the square root of the absolute temperature.

The sensitivity of such sensors is not always sufficient for use in the automatic control system of gas turbine engines. Increasing the sensitivity by increasing the operating frequency of the sensing elements or the Q-factor of the resonators leads to a sharp decrease in the range of measured temperatures, which also makes it difficult to use such sensors to control gas turbine engines.

In order to increase the gain, a wave acoustic resonator, made in the form of a tube, is placed between the output channels of the generator and installed in the sensor.

The drawing shows a diagram of the proposed temperature sensor, containing

jet generator I, wave acoustic resonator 2, jet rectifier 3, power supply nozzle of jet generator 4, walls 5 and 6, feedback channels 7 and 8, output channels 9 and 10, control channels of rectifier 11 and 12, power supply nozzle rectifier 13, receive channel rectifier 14.

A jet of gas, the temperature of which is measured, flows out of channel 4, flows along wall 5 or 6. If the jet flows along wall 5, the pressure signal propagates through feedback channel 7 and transfers jet to wall 6. The frequency of switching from wall to wall the wall is a function of the speed of propagation of the signal in the feedback channel and, therefore, is proportional to the square root of temperature.

The oscillations from the outputs 9 and 10 of the jet generator are fed to the control channels AND and 12 rectifiers. The amplitude of oscillations in them depends on the frequency of oscillations. If the wavelength in channels 9 and 10 is equal to the length

resonator 2, the oscillations to the control channels 11 and 12 of the rectifier will not pass, and closed on the resonator, which is a tube with a ratio of length to internal diameter equal to 400 or less.

Air jet from nozzle 13 rectifier

Constantly enters the receiving channel 14 and the maximum pressure in it. As the frequency changes, the degree of oscillating shunting by the resonator 2 decreases, the amplitude of the oscillations in the control channels increases, and the pressure in the receiving channel 14 decreases. Thus, a change in the gas temperature leads to a change in the pressure at the outlet of the rectifier due to a simultaneous change in the frequency and amplitude of oscillations in its channels.

Subject invention

The jet gas temperature sensor contains a jet generator whose output channels are connected to the output channels of the jet rectifier, characterized in that, in order to increase the gain, a wave acoustic resonator is installed in the form of a tube placed between the output channels of the jet generator.

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