SU1268863A1 - Method for damping pressure pulsations in hydraulic line and device for effecting same - Google Patents

Abstract

The invention relates to the field of hydraulic engineering and allows improving the efficiency of damping. Mounted on the main (GM) 1 casing 2 is divided into a vapor cavity 3 with an adjustable heater placed in it. 4 and the fluid cavity 5, communicated by the openings 6 with GM I. In GM 1, behind the openings 6 in the direction of flow of the working fluid, additional openings 9 are made to communicate the GM 1 with the cavity 3. Between the openings 6 and 9, there is a washer 7 and behind the holes 9 in the direction of flow of the working fluid is placed a constricting-expanding nozzle 8. Part of the fluid under the action of pressure difference arising on the washer 7 enters through the holes 6 into the casing 2, where it turns into steam and is dispersed as a vapor fraction into the flow through the hole and 9. The formed vapor-liquid mixture is accelerated to a speed equal to the velocity of propagation of oscillations, and then it is slowed down. The control system maintains an optimal speed in the nozzle 8. The oscillation energy of the oscillations is due to the difference between the vapor and liquid velocities and is especially high (9 at a speed close to the velocity of oscillation or speed). The achieved equality of the velocity of the mixture and the speed of sound prevents the waves from passing oscillations through the nozzle 8. What is the reason for the increase in the efficiency of damping. 2 sec. ff, 1 slug. HS 05 00 O5 oo

Description

The invention relates to mechanical engineering, in particular to technological solutions that allow damping pressure fluctuations in the hydraulic line, and can be used in heat and gas supply, petrochemical and cryogenic engineering.

The purpose of the invention is to increase the damping efficiency.

The drawing shows a diagram of a device for implementing the method of damping pressure fluctuations in hydraulic lines.

The device for damping pressure fluctuations in the hydraulic line 1 contains a casing 2 mounted on it, divided into a steam cavity 3 with a heater 4 located therein, and a liquid cavity 5 communicated to the openings # 6 with the hydraulic line 1. The device is equipped with a consumable washer 7 and a narrowing-expanding nozzle 8. In the hydraulic line 1 behind the holes 6 in the direction of the flow of the working fluid, additional holes 9 are made for the hydraulic line 1 to communicate with the steam cavity 3. In this case, the consumable washer 7 is installed between the holes 6 and 9, and the nozzle 8 is placed behind the holes 9 in the flow of the working fluid. The heater 4 is made adjustable. The control system maintains the optimum flow rate to the nozzle 8 and consists of flow pulsation sensors 10 and 11, a unit 12 for comparing the signals of the sensors 10 and 11, a converter 13, and an actuator 14, by which, in accordance with a command signal issued by the comparison unit 12, it is changed heater operating mode 4.

The method using the device is implemented as follows.

When the working pressure in the hydraulic line 1 is reached, a part of the liquid under the influence of the pressure differential arising on the washer 7 enters from the main stream through the openings 6 into the casing 2, where the heater 4 turns into steam and disperses as a vapor fraction back into the stream through the openings 9. Formed thus, the vapor-liquid mixture is then dispersed and smoothly slowed down in the nozzle 8. The control system maintains the optimum flow rate in the nozzle 8 and works as follows.

The pressure fluctuations propagating in the hydraulic line 1 are sensed by sensors 10 and 11, the signals of which are sent to the comparison unit 12. When matching the frequencies of the signals of the sensors 10 and 11 (the fact of the passage of oscillations through the device), the comparison unit 12 gives a command signal, which through the converter 13, which serves to transform the signal into a standard voltage, in the form of a control action enters the actuator 14, which changes the mode of operation of the heater 4 in such a way that the steam ⁵ content and, consequently, the flow rate in the nozzle 8 increase. This happens until there is a mismatch of the frequencies of the signals of the sensors 10 and 11 (the fact of damping the oscillations in the device, i.e., 10, when the nozzle 8 reaches the optimum flow rate). In this case, the signal from the comparison unit 12 is not output, and thus the operation mode of the heater 4 remains constant, and the flow rate in the nozzle 8 is optimal, which ensures the regime of maximum ¹⁵ damping efficiency.

The dissipation of vibrational energy is due to the difference in the velocities of vapor and liquid in both accelerated and slowed flow, and is especially large at a speed 2Q close to the propagation velocity of the vibrations or the speed of sound. In addition, the achieved equality of the speed of the mixture of the speed of sound prevents the passage of oscillation waves through the nozzle 8, this is due to the increased damping efficiency.

Claims (2)

Claim 1. A method of damping pressure fluctuations in gidromagistrali comprising changing the distributed working fluid flow elasticity by feeding into it preob- ³⁰ razovannoy in pairs portion of the working fluid flow, characterized in that, in order to increase damping efficiency, after supplying steam into the liquid in gidromagistrali the resulting mixture is accelerated to a speed equal to the propagation velocity of ⁵ oscillations, and then the speed is slowed down. 2. A device for damping pressure fluctuations in a hydraulic line, comprising a casing mounted thereon, divided into a steam cavity with 40 in it with a heater, and a liquid cavity in communication with the hydraulic line, characterized in that, in order to increase the damping efficiency, it is equipped with a consumable washer and a narrowing-expanding nozzle in the hydraulic line behind the holes ⁴⁵ connecting it to the liquid cavity in the direction of flow additional openings were made for the working fluid to communicate the hydraulic line with the steam cavity, while the consumable washer is installed between the main and additional openings, the nozzle is placed behind the additional openings direction of hydraulic fluid flow, and the heater is adjustable.