RU2662258C9 - Gas-turbine engine testing method - Google Patents

Abstract

FIELD: engines and pumps.SUBSTANCE: invention relates to the field of engine building, namely to methods for testing aviation gas turbine engines (GTE). Preliminary for this type of engine tests are carried out with the measurement of the residual oil volume in the engine supports after stopping at several values of the run-out time of the rotors due to different power take-off from the motor rotors, the dependences of the residual oil volume in the bearings on the run-out time Q=f(τ) and the power take-off from the run-out time N=f(τ), determine the run-out time and the required amount of power take-off from the engine rotors at an acceptable value of the residual oil volume in the engine supports, and during the tests and during the operation of the engine, the selected power take-off from the motor rotors is carried out.EFFECT: method allows to ensure the permissible value of the residual oil volume in the engine mounts, to prevent the release of oil into the flowing part of the engine and thus to ensure minimum oil consumption during testing and operation of the engine.1 cl, 1 tbl, 2 dwg

Description

The invention relates to the field of engine building, namely to aircraft gas turbine engines (GTE) and methods for testing them.

A known method of testing aircraft gas turbine engines, including measuring the parameters of its operation (G. M. Gorbunov, E. L. Solokhin. "Tests of aircraft jet engines." M .: "Engineering", 1967, p. 17-18).

When implementing the known method, there is no effect of the run-off time of the engine rotors on the residual oil volume in the engine mounts, which, when the support is overfilled with oil, leads to the release of oil into the engine flow part and, therefore, to non-optimal (increased) oil consumption during engine tests.

The objective of the invention is to ensure the volume of oil in the engine mounts does not exceed the permissible value.

The technical result achieved by using the present invention is to provide an acceptable value of the residual oil volume in the engine mounts by performing optimal power take-off from the rotors of the engine on the coast and, as a result, reducing oil consumption during engine testing.

The specified technical result is achieved by the fact that in the known method of testing a gas turbine engine, including measuring its operation parameters, according to the present invention, tests are carried out for this type of engine to measure the residual oil volume in the engine mounts after shutdown at several rotor run-off times due to different power take-offs depending on the engine rotors, the dependences of the residual oil volume in the supports on the run-down time Q = f (τ) and the power take-off on the run-on time N = f (τ) are determined the run-down time and the required amount of power take-off from the engine rotors are given at an acceptable value of the residual oil volume in the engine mounts, and during testing and during operation of the engine, the selected power take-off from the engine rotors is carried out.

The invention consists in the following.

When conducting engine tests, it was noted that when the rotors of the product run out, oil continues to be supplied to the engine mounts until the product stops completely. At the same time, the performance of the pump pumping oil from the bearings significantly decreases with a decrease in engine speed. This leads to an overflow of oil engine mounts during prolonged run-out of rotors and the release of excess oil into the flow part, which leads to increased oil consumption during the test.

In this case, the coasting time can be reduced by increasing the amount of power take-off from the rotors of the engine on the coast. However, with a significant reduction in the run-out time, jamming of the rotors is possible due to the fact that the parts of the rotor and stator are made of different materials, which have different thermal expansion properties. Therefore, the optimal run-out time corresponds to the time providing an acceptable value of the residual oil volume in the engine mounts.

Thus, during testing and during operation of the engine, it is advisable to take power from the engine rotors in a size that provides an acceptable value of the residual oil volume in the engine mounts, which will reduce engine oil consumption during its testing and during its operation.

The proposed test method is implemented as follows.

Example

One prototype engine is tested on a test bench with power take-off from the rotors of the engine on the coast using a plunger pump with a load of 10 l / min, 15 l / min, 20 l / min, 25 l / min, 30 l / min, time is measured rotor run-out and residual oil level in engine mounts after stopping.

The table shows the values of the rotor run-down time τ and the residual oil level in the engine mounts after stopping Q for various values of power take-off from the rotors of the engine on the coast N.

According to the obtained values, the dependences of the power take-off value on the stick-out time N = f (τ) (Fig. 1) and the residual oil volume in the supports on the stick-out time Q = f (τ) are constructed (Fig. 2).

According to the graph of FIG. 2 determine that at point A, corresponding to a rotor run-off time of 60 seconds, the engine mount is completely filled with oil, which means that with a further increase in run-out time, an excess amount of oil will be thrown into the flow part, which will lead to increased oil consumption.

From the graph of FIG. 1 determine that to ensure the rotor run-off time of not more than 60 seconds, it is necessary to carry out power take-off from the engine rotor, corresponding to a plunger pump loading of 14.5 l / min (Fig. 2, point A).

During tests and during operation of the engine, power is taken from the engine rotor by loading a plunger pump in the amount of 14.5 l / min.

The proposed method allows to provide an acceptable value of the residual volume of oil in the engine mounts, to prevent the release of oil into the engine duct and thus to ensure a minimum oil consumption during testing and operation of the engine.

Claims (1)

A method of testing a gas turbine engine, including measuring its operation parameters, characterized in that preliminary, for this type of engine, tests are carried out to measure the residual oil volume in the engine mounts after stopping at several rotor run-off times due to different power take-offs from the engine rotors, and the dependences of the residual the volume of oil in the supports from the run-down time Q = f (τ) and the power take-off from the run-out time N = f (τ), determine the run-out time and the required power take-off from engine rotors at an acceptable value of the residual oil volume in the engine mounts, and during testing and during operation of the engine, the selected power is taken from the engine rotors.

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