RU2451922C1 - Diagnostic technique for aeroelastic oscillation mode of rotor blades of axial flow turbomachine - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: strain sensors are used to prepare a line of blades on a portion of a rotor wheel circle. The first blade in the line is appointed to be a reference. It is followed by determining values of oscillation coherence functions of each blade in relation to the reference, while these derived values are used to diagnose an aeroelastic oscillation mode. If the values of coherence functions of the line of the blades are equal to one, blade self-oscillations are diagnosed. The monotone decrease monotonous between the maximum equal to one of the values of coherence functions of the line of the blades as far as each blade is arranged towards the rotor wheel rotation from the reference, show stall blade oscillations are diagnosed. Self-oscillations and stall oscillations adjustment measures are specified.

EFFECT: higher reliability and reduced time for diagnosing the aeroelastic flow oscillation mode in the operation conditions of the rotor blades of the axial flow turbomachine.

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Description

The invention relates to power engineering and can be widely used in the strength and aerodynamic refinement of axial compressors and turbines in aviation and power engineering.

The constant desire to reduce weight characteristics and increase the aerodynamic loading of the blades of axial turbomachines contributes to the appearance of dangerous vibrations in them, including self-oscillations and stall vibrations of the blades. These two types of vibrations are characterized by a sharp increase in vibrational stresses, which can cause the destruction of the blades in a short period of time.

A known method for the diagnosis of vibration of the blades of the impeller of an axial turbomachine, based on the discrete-phase method, which allows to determine the deformation state of each blade of the impeller of a turbomachine [Zabolotsky I.E., Korostelev Yu.A., Shipov R.A. Non-contact measurements of vibrations of turbomachine blades. M., Engineering, 1977, pp. 23-27].

The essence of the method consists in measuring the time intervals between the pulses of the root and peripheral sensors, comparing them with the geometric position of a particular blade in the wheel at certain points in time and corresponding interpretation of the obtained values.

The disadvantage of this method is the inability to determine the numbers of diametrical vibrations, according to which the vibrations of the blades are realized.

A known method of measuring the amplitudes of oscillation of the blades of the impeller of a turbomachine, which consists in measuring the time intervals between the moments of passage of the ends of the blades past impulse sensors mounted motionless in the housing of the turbomachine, moreover, the diagnosis of developed self-oscillations is made upon the presence of high-level oscillations at frequencies not multiple of the frequency of rotation of the impeller [USSR copyright certificate No. 236826, G01M 9/00, 1969]. However, this method does not allow to diagnose the type of oscillations at the stage of their formation, when the oscillatory process is not strictly sinusoidal.

The closest in technical essence and the achieved results is a method for diagnosing the type of aeroelastic vibrations of the working blades of an axial turbomachine (patent RU No. 2402751, G01M 15/14, 11.06.2009). The method is based on determining the excitation coefficients in an unsteady signal at the oscillation frequencies of the blades and at the diagnostic frequencies of these oscillations in the spectrum of flow pulsations. According to this method, the dependences of the excitation coefficients on time are constructed, the time instants are determined at which the values of the excitation coefficients from negative become positive and are used to judge the form of aeroelastic vibrations of the blades. If the indicated excitation coefficients simultaneously change the values from negative to positive, then this means the appearance of self-oscillations. If the excitation coefficient in the flow changes its value from negative to positive earlier than on the blade, this means the appearance of stall oscillations.

The disadvantage of this method is the lack of efficiency and considerable laboriousness, since for its use it is necessary to construct the dependences of the excitation coefficients on time using the Prony method, which can only be done at the stage of secondary signal processing after obtaining signal spectra.

The present invention is based on the solution of the problems of increasing reliability and reducing the diagnostic time of the type of aeroelastic vibrations of the blades of the impeller of an axial turbomachine in a stream at operating conditions.

The tasks are solved by the fact that the blades are prepared with strain gauges. Signals from load cells on the blades are recorded. Amplify these signals. The amplified signals are converted into frequency spectra and the frequency of the joint oscillations of the blades is determined.

New in the diagnostic method is that a series of blades is prepared on a part of the circumference of the wheel. Assign the first scapula in a row as the source. The values of the coherence functions of the vibrations of each blade relative to the original blade are determined and the shape of aeroelastic vibrations is diagnosed using these values. Moreover, with the values of the coherence functions of a number of blades equal to unity, self-oscillations of the blades are diagnosed. With a monotonous decrease from a maximum equal to a unit of values of the coherence functions of a number of blades, as the location of each blade in the direction of rotation of the wheel from the original blade is determined, shear vibrations of the blades are diagnosed.

It should be noted that the coherence function can be determined in any known manner. For example, the coherence function can be determined by the formula

where G _xy (f) is the mutual spectral density of the signals x (t) and y (t);

G _x (f) is the spectral density of the signal x (t);

G _y (f) is the spectral density of the signal y (t);

f is the frequency;

t is time.

J. Bendat, A. Pirsol. Measurement and analysis of random processes. MIR Publishing House, Moscow, 1974, p. 48.

The preparation of a number of blades on a part of the wheel circumference, the appointment of the first blade in a row as the initial blade, the determination of the values of the coherence functions of the oscillations of each blade relative to the original blade allow the use of a more reliable and less time-consuming new diagnostic method in the flow type of aeroelastic vibrations of the blades of the turbomachine impeller.

The identification of the values of the coherence functions for a number of blades equal to unity allows us to reliably diagnose the type of self-oscillations of the blades.

The detection of a monotonous decrease from a maximum equal to a unit of values of the coherence function of the blades in a row, with the location of each blade in the direction of rotation of the wheel from the original blade, allows reliable diagnosis of stall vibrations of the blades.

This allows you to use proven measures to eliminate abnormal vibrations of the blades, which increases reliability, reduces the time and cost of diagnosing and developing the design or repair of the blades of the impeller of an axial turbomachine.

Such measures to eliminate the self-oscillations of the blades may be

- an increase in the mass of the blades;

- increase in stiffness of the blades;

- change the material of the blades;

- the introduction of directional different frequencies of the blades.

Such measures to eliminate stall vibrations of the blades may be

- elimination of the cause of stall flow, i.e. changing the geometry of the profile of the scapula;

- change of angle of attack;

- elimination of shock waves.

When using the present invention, the following technical result is achieved: the reliability of diagnostics of the type of aeroelastic vibrations of the blades of the impeller of an axial turbomachine in the stream at operating conditions is increased and the time and cost of diagnostics are reduced, which allows not to disturb the rhythm of the tests.

The influence of the listed distinguishing features on the achieved technical result is confirmed by the results of experiments.

In the process of experimental studies conducted on compressors of aircraft gas turbine engines, the signals from the load cells mounted on the blades of the impeller of the compressor rotor were used to determine the frequency of oscillation of the blades and the coherence function between the oscillations of the blades. One of the blades was chosen as the initial one and the coherence function of the remaining blades at the oscillation frequency of the blades was determined relative to the initial blade. At the same time, it was found that during self-oscillations of the blades, the coherence function is always equal to 1. On the contrary, with stall vibrations, the coherence function monotonically decreased as any other row blade was removed from the original blade.

Thus, the tasks of the invention have been solved - reliability has been improved and the time for diagnosing the type of aeroelastic vibrations of the blades of the impeller of an axial turbomachine in the stream at operating conditions has been reduced.

The present invention is illustrated by the following detailed description of a method for diagnosing the form of aeroelastic vibrations of working blades of an axial turbomachine and an illustration of a device that implements this method.

To diagnose the type of aeroelastic vibrations in the flow at the operating modes of the blades of the impeller of the axial turbomachine 1, a number of blades 2 are prepared by load cells 3 on the part of the wheel circumference. Assign the first blade 2 as the starting blade.

When the turbomachine 1 is working with rotor blades 2, the signals from the strain gauges 3 are fed through an amplifier 4 to the input of the recorder-analyzer 5. In the operating modes of the turbomachine with reduced pressure at the inlet, the natural frequencies of the blades oscillations are determined from the signals from the strain gauges 3. Further, in the operating modes of the turbomachine, the values of the coherence function between the vibrations of the initial blade and the remaining row blades on which there are strain gauges are determined. This operation is performed using the recorder-analyzer 5. If for all blades the value of the coherence function is 1 (straight line A on the graph), this means the appearance of self-oscillations. If the value of the coherence function decreases with the distance of the investigated scapula from the original (lines B and C on the graph), then this means the appearance of stall oscillations.

Using this method of diagnosing the type of vibration of the working blades of an axial turbomachine allows you to diagnose the type of vibration of the blades at an early stage of vibration formation during field tests of the turbomachine. Reliable diagnostics can be performed on the basis of single tests of a turbomachine, without risk of getting dangerous stresses in the impeller blades. This allows you to save the resource of the turbomachine at the stage of strength tests, reduce the time of the experiment, reduce the cost of the experiment and ultimately increase the operational reliability of the turbomachine.

The present invention is illustrated by the following detailed description of the method for diagnosing the type of aeroelastic vibrations of the impeller blades as part of an axial turbomachine and an illustration of the device, where the drawing shows the impeller of a turbomachine, general views of the amplifier, recorder-analyzer in axonometric projection and the dependence of the values of the coherence function on the location of the blades in a row .

между колебаниями исходной лопатки и всех остальных лопаток, на которых имеются тензодатчики. Эта операция выполняется с помощью регистратора-анализатора 5. Если для всех лопаток значение функции когерентности равно 1, то это означает появление автоколебаний (график А). Если значение функции когерентности убывает с увеличением расстояния между лопатками Δn, то это означает появление срывных колебаний (графики В и С).When the turbomachine is operating with the impeller 1 (see the drawing), the signals from the strain gauges 3 installed on the rotor blades 2 are fed through the amplifier 4 to the input of the spectrum analyzer-analyzer 5. At the operating modes of the turbomachine with reduced pressure at the input, the own signals are determined by the signals from the strain gauges blade vibration frequencies. Then, the first of the row blades is selected as the initial blade. Next, on the operating modes of the turbomachine, the values of the coherence function are determined

between the oscillations of the original blade and all other blades on which there are strain gauges. This operation is performed using the recorder-analyzer 5. If for all blades the value of the coherence function is 1, then this means the appearance of self-oscillations (graph A). If the value of the coherence function decreases with increasing distance between the blades Δn, then this means the appearance of stall oscillations (graphs B and C).

Using this method of diagnosing the type of oscillation of the working blades of an axial turbomachine allows you to diagnose the type of oscillation of the blades at an early stage of their formation during field tests of the turbomachine. Reliable diagnosis of blade vibrations can be carried out on the basis of single tests of a turbomachine, without risk of obtaining dangerous stresses in the blades. This allows you to save the resource of the turbomachine at the stage of strength tests, reduce the time of the experiment, reduce the cost of the experiment and ultimately increase the operational reliability of the turbomachine.

Claims (1)

A method for diagnosing the type of aeroelastic vibrations of the blades of the impeller of an axial turbomachine in a stream at operating conditions, which consists in preparing the blades with load cells, registering signals from the load cells on the blades, amplify these signals, convert the amplified signals to frequency spectra, and determine the frequency of the joint vibrations of the blades, different the fact that a series of blades is prepared on a part of the wheel circumference, the first blade in the row is assigned as the initial one, the values of the coherence functions of oscillations are determined each the blades relative to the initial blade and, based on these values, diagnose the form of aeroelastic vibrations, moreover, when the values of the coherence functions of a number of blades are equal to one, self-oscillations of the blades are diagnosed, and when monotonously decreases from a maximum equal to the unit of values of the coherence functions of a number of blades, as the location of each blade in the direction of rotation of the wheel from the original blades diagnose stall vibrations of the blades.

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