SU481328A1 - Hydrodynamic generator - Google Patents

Description

one

The invention relates to ultrasound technology and can be used to create intense acoustic vibrations in liquid media.

A device for a hydrodynamic generator intended for the treatment of liquid media, including a slit nozzle and an obstacle, is known as a resonant oscillatory device.

In such a device, it is impossible to create a steady {1 cavitation field in the zone of maximum energy of the jet flowing out of the nozzle at an outflow rate greater than critical, due to the fact that the cavitation cloud generated in the jet strongly absorbs the energy of elastic vibrations of the resonant device, which leads to a decrease in liquid handling

The purpose of the invention is to create a localized jet cavitating field and increase the processing efficiency when the jet is exhausted at a speed that is more critical.

To do this in the proposed generator

The obstacle was made in the form of a cylindrical sleeve with an axisymmetric conoidal hole installed on the end face (; and the larger diameter of the hole is 1.5-1.8 times the smaller diameter of the hole.

The drawing shows the proposed hydrodynamic generator.

An annular slotted nozzle 2 with a fitting 3 for supplying the treated liquid is located in the housing 1. On racks 4 with an adjusting nut 5 there is an obstacle 6, made in the form of a cylindrical sleeve with an axisymmetric conoid bore.

The generator works as follows.

The fluid is pumped at a certain pressure and flow rate through the clamp 3 to the annular nozzle.

2

When it hits the front surface of an obstacle 6, it abruptly changes its direction. Then a part of the jet enters the obstacle hole and due to its cocoidal shape it flows out with the lowest possible speed, which creates a region of reduced pressure inside the jet in the zone of its maximum energy. Due to the pressure difference outside and inside, the jet deviates and, at a certain diameter of the smaller hole, forms part of its own closed space in the form of a torus, inside which cavitation bubbles appear throughout the entire volume, which, localized by the jet, form a high-intensity cavitational field. The maximum processing efficiency when the jet outflows at a speed greater than critical is achieved by placing the obstacles against the nozzle slot at a distance of 12-16 widths of this slot and choosing a smaller conoidal hole diameter equal to 13 15 slot widths and a larger diameter 1, 5-1, 8 from a smaller diameter. Customization

maximum intensity is achieved by varying the flow rate of the fluid.

Subject invention

Hydrodynamic generator, including a circular slotted nozzle and obstacle, characterized in that, in order to create a localized cavit ion field and increase processing efficiency when the jet outflows from C), more critical, the obstacle is in the form of a cylindrical sleeve with an axially symmetric conoidal opening, an installed end surface with a larger opening diameter against the nozzle opening at a distance of 12-16 widths of the circular opening of the nozzle, with a smaller opening diameter of 13 -15 the width of this slot, and the larger diameter of the hole is 1.5-1.8 of the smaller diameter of the hole.