SU965495A1 - Apparatus for producing dispersed system - Google Patents

Description

The invention relates to a technique for the preparation of liquid-gas dispersed systems, liquid-liquid by vibration effects and can be used in the chemical, petrochemical, food and other industries related to the preparation and use of various liquid and gas-liquid mixtures.

It is known) a device for producing disperse systems, liquid gas, liquid - liquid containing capacity. mounted on an elastic base, equipped with a vibration drive and filled with the treated fluid f1.

When this device is in operation, oscillatory movements of the container and the liquid column contained in it are excited, which at certain frequencies of external influences leads to the flow of gas into the liquid through the phase boundary and the emergence of the so-called vibro-turbulization mode. Fluid vibrations in this mode allow high-quality mixtures to be emitted, including from components, nantes that are immiscible under normal conditions;

A device containing a container mounted on an elastic base, equipped with a vibration drive and filled with a liquid in which an elastic resonator is placed, for example, in the form of a gas-filled sphere with flexible walls, is known. Placing the resonator in a vibrating fluid allows one to simplify the tuning of the oscillatory system for resonance, speed up the establishment of the mode and vibratory turbulence, and calculate the design parameters of the system (cavity volume, depth of immersion, size of the liquid column, etc.). at a predetermined frequency of external influences G 2J.

 The disadvantage of this device

20 is a significant decrease in the effectiveness of vibration effects when the oscillation mode deviates from resonance. This occurs due to an unforeseen and usually not controlled during operation by changing at least one of the parameters of a mechanical oscillatory system, for example, the amount of gas in the resonator, the density of a liquid,

Claims (2)

The frequency of external influences, the gas pressure over the free liquid surface, the amount of gas entering the liquid, etc. As evidenced by experimental data, the resulting mismatch between the natural frequency of the system oscillations and the frequency of external influences can lead to a decrease in amplitude. fluctuations by 60-70%, respectively, and the effectiveness of vibration effects. The purpose of the invention is to intensify the mixing process and reduce energy consumption by increasing the efficiency of vibration effects. . The goal is achieved by the fact that in. a device for receiving disperse systems liquid gas, liquid - liquid containing a tank mounted on a tyne base, equipped with a vibration drive and filled with a liquid in which an elastic resonator is placed, for example ,, in the form of a gas-filled sphere with flexible walls displacement and the tank in the upper part is equipped with a limiter ascend. At the same time, the ascent limiter is filled in the form of a mesh pan. This design of the device allows the resonator to occupy in a liquid the dynamically stable position at which the maximum amplitude of the pulsed oscillations of the resonator is established and thereby ensure the achievement of the self-padding effect of the mechanical oscillatory system on the resonant mode, which. always accompanied by a minimum expenditure of external energy and maximum efficiency of vibration effects. The presence of an ascent limiter of the resonator eliminates the possibility of disrupting oscillations and provides for the excitation of the oscillating system cp after the switching on of the vibrodrive. In the drawing is a schematic image of the proposed device, the longitudinal section. The device for the preparation of dispersed systems contains a container 1 mounted on an elastic base: 2,. for example, in the form of a spring shock absorber. The tank is equipped with a vibrodrive 3, which can serve as an electric motor with unbalances on the shaft, and is filled with the treated fluid 4. Immersed in a liquid Volume compressible elastic resonator 5, made in the form of, for example, a gas-filled sphere with flexible walls, in a subsurface liquid layer a resistor ascent limiter 6 is placed overlapping the cross-section of the capacitance and having the form of a grid, grid or perforated plate which is fixed, for example, by means of a fixed one. bracket 7.. It is possible to manufacture the resonator 5 from any compressible elastic material, including porous, for example, from polyurethane foam, sponge rubber, etc. The spherical shape of the resonator is preferable in order to ensure uniform radial pulsations with an arbitrary position of the resonator with respect to the exciter, i.e. . the vibration actuator H. In fluid 4, the resonator is in a free state and its movement is limited only by the walls and bottom of tank 1 and ascent limiter 6.i The resonator limiter 6 of the resonator allows it to be mounted on the walls of tank 1 (not shown). The device works as follows. When the vibrodrive 3 is turned on, the capacitance 1 and the fluid 4 contained in it begin to oscillate. body movements in a vertical plane. Fluid vibrations are transmitted to the resonator 5 and, due to its compressibility and elasticity, radial pulsations are excited, i.e. periodic, with the frequency of external influences, changes in the cavity volume. The pulsating movements of the resonator 5 lead to the redistribution / division of the hydrodynamic pressure in the liquid and to the appearance of vibration. The radial force acting on the resonator 5 and forcing it to move and take a dynamically stable position in the fluid. In this position, the force of Archimedes is equal to the vibration force, and the amplitude of the pulsating oscillations is maximum, which corresponds to the resonant mode. Subsequently, any deviation of this oscillatory system from the resonance caused by a change in one or another parameter, for example, the amount and density of the liquid entering the gas, the frequency of external influences, etc., leads to a corresponding change in the position of the resonator along the height of the vibrated liquid column, stabilization of the resonant mode of oscillations, and ultimately, to an increase in the efficiency of vibration effects. Compared with the known device, the proposed one allows a 50-60% reduction in energy consumption and Stith implemented by the process control system. The formula of the invention 1. A device for producing dispersed gas-liquid systems, a liquid J containing a capacitor mounted on an elastic base, equipped with a vibration drive and filled with a liquid in which an elastic resonator is located, for example wall different walls By the fact that, in order to intensify the process of stirring, vanishing and reducing energy consumption by increasing the efficiency of the cooling effects, the resonator is installed with the possibility of free movement and the capacitance in the upper part is equipped with its limiter 2. The device according to claim 1, about tl and which is so that, the limiter ascend is executed in the form of a mesh tray. Sources of INFORMATION taken into account in the examination m dJfl7 r ° ° ® certificate of the USSR ® 3/08, published. I 2. USSR author's certificate in application I 2761795 / 23-26, | Kl. B 01 F 3/08, published on 13.11.79