RU2664932C1 - Method of regulating water in imitated atmospheric clouds - Google Patents

Abstract

FIELD: test technology.SUBSTANCE: invention relates to the field of aviation equipment certification testing and, in particular, to the technology of atmospheric cloud imitation, as well as simulating intermittent cloudiness during testing of de-icing systems of the main components of the aircraft and its engine on ground stands. In carrying out the method, water is supplied and then water is sprayed in the air stream, while the water content is controlled by changing the water flow rate. Water is fed in a pulsed mode, while the dispersion of the spray is established, which ensures the formation of droplets whose average median size does not exceed 20 mcm, and the water flow is changed by adjusting the pulse width.EFFECT: technical result consists in expanding the range of water content generated by a set of nozzles with specified flow characteristics, while ensuring the normalized dispersion of water spray.1 cl

Description

The invention relates to the field of certification tests of aircraft and, in particular, to technology for simulating atmospheric clouds, as well as simulating intermittent clouds during testing of anti-icing systems (PIC) of the main components of the aircraft and its engine on ground stands.

By “simulating an atmospheric cloud” in the framework of this application is meant an artificial reproduction of the conditions of the dropping moisture of an atmospheric cloud on the nodes of an aircraft occurring in a real atmospheric cloud, in particular, the creation of a certain concentration of water droplets in the free air stream during tests of the aircraft’s PIC, corresponding to that in a real atmospheric cloud under various flight paths of an aircraft and various atmospheric conditions.

The corresponding range of required water availability has wide limits in which water content can vary by more than 15 times. At the same time, water spray nozzles should provide a normalized dispersion of the spray according to the average median size of the water droplets entering the air stream. Normalized dispersion is ensured in the range of flow characteristics of existing nozzles from maximum to minimum no more than 3-5 times (AN Antonov. “Development of methods and means for testing engines and elements of aircraft under artificial icing in ground-based high-altitude climatic chambers ”, The dissertation for the degree of Doctor of Technical Sciences, Moscow, TsIAM, 2004, p. 292).

From the above source, there is a known method for regulating water content in a simulated atmospheric cloud during bench tests of aircraft engines, which supply water and then spray water in an air stream, while reducing water content in a simulated cloud is achieved by changing the flow rate of water in the channels providing water to the nozzles .

Also known is a method (RU 2273008, 2006) for regulating water content in a simulated atmospheric cloud during bench tests of aircraft engines in which water is supplied and then water is sprayed in the air stream.

The closest analogue of the claimed invention is a method of regulating water content in the air stream (RU 154759, 2015) during bench tests of aircraft engines, which feed water and then spray water in the air stream, while the water content is controlled by changing the flow rate of water.

In the known methods, to create water content in the air stream, while ensuring a normalized dispersion of water spray in the range exceeding the flow rate of the nozzles, several sets of nozzles with different flow characteristics are used sequentially, thus overlapping different sections of the full range of changes in water content.

When switching from one to another set of nozzles in the nozzle block, it is necessary to stop the test, reassemble the nozzles, after which calibration of the uniformity of spraying of the new set of nozzles is required, which significantly increases the time spent on testing. In addition, there is no technical possibility in one test to fulfill the requirement to ensure a change in water content when simulating the trajectory of an aircraft in alternating clouds (different water content).

The technical problem to which the invention is directed is the need to create a method that allows you to provide these requirements to ensure changes in water content in one test without stopping the latter.

The technical result achieved in the claimed invention is to expand the range of water availability while providing a normalized dispersion of the spray of water.

The specified technical result is achieved due to the fact that in the method for controlling water content in the air stream during bench tests of aircraft engines, water is supplied, and then water is sprayed in the air stream, while water content is controlled by changing the water flow, the water is supplied in a pulsed mode, while setting dispersion of the spray, providing the formation of droplets, the average median size of which does not exceed 20 microns, and the water flow rate is changed by adjusting the duty cycle of the pulses.

Before the water supply, they can equalize the pressure in the channels providing the flow of water by adjusting the flow rate of water through each channel.

The present invention is illustrated by the following detailed description of the implementation of the method of controlling water content in the air flow during bench tests of aircraft engines.

The atmospheric cloud is imitated by blowing the test object with an appropriately organized and tuned water-air flow formed by the air flow supplied from the source and a block of working nozzles installed in the wind tunnel, to which water is supplied. The water stream is sprayed from the nozzles in the form of drops with a given average median size not exceeding 20 microns, and in a given amount determined by the test program.

Water is supplied to the nozzles in a pulsed mode with a certain frequency and duty cycle, which is set depending on the required water content of the simulated cloud.

As nozzles, centrifugal double-circuit nozzles can be used, in the central nozzle of which water is supplied, and compressed air in the coaxially located nozzle of the second circuit. The nozzle block may contain parallel-connected sections located in height, each of which is made in the form of a supply tube on which one or more nozzles are placed.

To fulfill the requirements of regulatory documents (for example, the aviation rules of airworthiness AP-33) according to the normalized dispersion of the spray, a preliminary calibration of the test bench is carried out, for which the following operations are performed step by step:

a) a nozzle block is mounted on the stand in the wind tunnel, and at a certain distance from it in the air flow section where it is planned to install the test object (but without it) equipment for measuring droplet sizes is mounted;

b) water is supplied, for example, from the water tank to the nozzle block with a flow rate corresponding to the required water content, which is determined by dividing the total water flow rate in the nozzle block by the flow rate of the working air flow supplied to the wind tunnel, and an additional stream is supplied to the second nozzle circuit air;

c) on the basis of measurements of the indicated equipment, the actual arithmetic average droplet size is determined and, if it does not meet the required one, the air pressure (flow rate) of the second nozzle circuit is changed, thereby affecting the characteristic size of the water droplets in the nozzles;

d) actions for operations b) and c) are carried out until the required actual arithmetic average droplet size is reached;

d) change the flow rate of water supplied to the nozzle block, for example, using tuning chokes installed in the channels providing water supply to the nozzle block, and repeat steps b), c) and d);

f) as a result of calibration, a range of water flow rates (water content) is established for a given nozzle size in the nozzle block, in which a normalized dispersion of the spray by the size of the droplets is provided, and the values from the specified range are taken as the nominal water flow rate.

In particular, for conducting certification tests of aircraft under artificial icing conditions (simulating flight in an icy cloud), a two-phase air stream with particles of distilled water in the form of droplet moisture is reproduced with a characteristic average median droplet size of 20 μm.

In this case, the nominal water flow rate can be about 6 g / s at a pressure of about 8 atm. (approximately 800 kPa), and the normalized dispersion of the spray by the average median size of approximately 20 μm can be provided from the upper (100%) to the lower boundary (20%) of the set nominal water flow rate.

After this, such a water pressure is established at which the nozzles operate at a set nominal flow rate and provide a normalized dispersion of water spray.

Water can be supplied from the tank with water by the pump through adjusting throttles, providing, if necessary, preliminary equalization of pressure in the channels, ensuring the flow of water into various parts of the nozzle block. For example, the pressure difference between the upper and lower channels can be 2-2.5 m water column. (approximately 20-25 kPa), which leads to a difference in water flow in different parts of the nozzle block. Pressure equalization is carried out with the help of adjusting throttles, covering / opening which, they achieve the same water flow in the channels.

In the particular case, the pulse mode can be set using pulses generated by a pulse generator, for example, assembled on a PIC16F628A microcontroller (described on the website http://www.kaligraf.narod.ru/generator.html), which is configured to control the frequency and duty cycle of pulses.

The frequency of the pulses is set in such a way that the period of the pulses is less than the experimentally determined characteristic time of the thermal processes of interaction of the droplets with the surface of the nodes of the test aircraft.

After the adjustment chokes, water can pass through a block of modulators, which, in particular, contains a pipeline with parallel sections, each of which is made in the form of a pipe segment with a modulator mounted on it, for example, a valve with an electromagnetic actuator type CK-11-DN15 from ROSMA . At the same time, a control signal from the pulse generator of the control unit in the form of pulses with a given frequency is supplied to the group of control inputs of the modulator block. In this case, the opening and closing of the modulators occurs in accordance with the control signal supplied to them. In the period of fully open modulators, the nozzles operate at a nominal flow rate, and in the period of completely closed - water does not enter the nozzles.

Further, by adjusting the duty cycle of the pulses received at the output of the pulse generator, the required water flow rate is set, which is determined by the test program (given conditions for water content). For this, the duty cycle of the pulses should be equal to the ratio of the nominal water flow to the required.

Modulators are selected so that the period during which the modulators are fully open exceeds 10-20 times the period of transition of the modulators from open to closed. In this case, the opening and closing periods of the modulators do not have a significant effect on the resulting dispersion of the water spray, since the nozzle operating time at a water flow below the nominal value is an insignificant fraction of the operating time when the modulators are fully open.

Thus, the resulting dispersion of the spray according to the invention depends only on the characteristics of the nozzles during the period when the respective modulators of the water flow are fully open and the nozzles operate at the set nominal water flow. The actual flow rate of water supplied through the nozzles depends on the duty cycle of the pulses supplied to the modulator. Such an implementation of the method provides a normalized dispersion of the spray of a mounted set of nozzles in the range of water flow from zero to the upper limit of the set nominal water flow, thus ensuring the claimed technical result - expanding the range of water availability while ensuring a normalized dispersion of the spray. This technical result allows us to solve a significant technical problem, since using the inventive method it is not necessary to stop the test when the lower limit of the required range of water flow in the test is less than the lower limit of the nominal flow range of the existing set of nozzles.

Thus, the claimed method allows to provide, within the framework of one test, a simulation of the conditions of alternating clouds and atmospheric clouds with different water content.

Claims (2)

1. The method of regulating the water content in the air flow during bench tests of aircraft engines, in which water is supplied, and then water is sprayed in the air stream, while water content is controlled by changing the water flow, characterized in that the water is supplied in a pulsed mode, and the dispersion is established spray, providing the formation of droplets, the average median size of which does not exceed 20 microns, and the water flow rate is changed by adjusting the duty cycle of the pulses. 2. The method according to p. 1, characterized in that before the water supply equalize the pressure in the channels providing the flow of water by adjusting the flow rate of water through each channel.