CS268640B1 - Device for liquids' and gases' static pressure reduction - Google Patents

Abstract

Static reduction device pressure of liquids and gases is located in a liquid or gas transfer channel. It consists of an outer body and ribs, in which the inner rib is placed body, that between the hole each rib of the outer body with the circumference opposite rib of the inner rib body A slot is created by a constant height.

Description

The invention also relates to a device for reducing the high static pressure of liquids and gases. for example to reduce the water pressure in nuclear power plants, consisting of one or more chambers, separated by partitions and located in the fluid transfer channel.

To reduce the static pressure, orifice baffles with circular flow openings built into the liquid and gas transfer channels are still used. Depending on the size of the reduced static gradient, one or more orifice baffles are used. The structural arrangement of the orifice baffles with circular flow openings results in the creation of conditions for the occurrence of cavitation phenomena and their effects. As a result of cavitation phenomena, the structure of the pipe material and orifice bulkheads is disturbed. This causes a change in the shape of the flow openings and thus a change in their designed function, just as a change in the thickness of the pipe can lead to its failure. This phenomenon is unacceptable from the point of view of operational reliability, especially in nuclear power plants. When using orifices with round openings, some Nuclear Power Plant systems experience significant vibrations in the pump discharge line and in the recirculation route, and the destruction of the piping in the area of the orifices causes serious problems.

As the liquid flows through the orifices, the velocity increases sharply and the pressure drop is accompanied by noisy sound effects.

These disadvantages are eliminated by the device according to the invention, the essence of which is to form a slit or liquid flow opening in the form of a slit of constant height around the entire circumference formed between the opening of each outer body rib and the circumference of the opposite rib of the inner body housed therein. and a liquid or gas transfer channel outlet chamber. The slit is characterized by a large slenderness ratio, i.e. a length to height ratio in the range of about 50 to 200.

The advantage of the slot is the reliable achievement of cavitation-free high pressure reduction. The noise level when the liquid passes through the slit is significantly lower in comparison with orifice barriers with a circular opening. By including a slotted orifice in the recirculation in Nuclear Power Plants, vibrations in the pump discharge line and the recirculation itself are removed. From the point of view of work safety, it eliminates the danger of room contamination during pipe destruction and the danger of working with active material when replacing pipes.

Due to the modular design of the slit orifice and the possibility to change the height and length of the slit, the shape and size of the chambers, the slit orifice can be used for various pressure drops and flow rates. The accompanying drawing shows a five-stage slit screen according to the invention. Due to the practical need to build into pipes, it is adapted for a circular shape. Fig. 1 is a longitudinal section of the slit screen, Fig. 2 is a side view.

An outer body consisting of circumferential rings 4 and ribs 3 is welded to the high-pressure tube 1. An inner ribbed body 2 is arranged in the axis of the high-pressure tube 1 so that between the opening of each rib 3 of the outer body and the circumference of the opposite inner rib. The exact height h of the ribbed body 2 is ensured by the projections 5 on the inner ribbed body 2.

When liquid or gas flows out of the slit into the space of the outflow chamber formed behind the slit, the liquid or gas flow from the slit is turbulently mixed with the liquid or gas and the outflow chamber. kinetic energy and creation of the difference of static pressures in the inflow and outflow chamber ·

The device can be used wherever it is necessary to reduce the high static pressure to a lower pressure, eg in WER type nuclear power plants and in power engineering.

Claims (1)

Device for reducing the static pressure of liquids and gases, located in a liquid or gas transmission channel, consisting of one or more chambers separated by partitions, characterized in that an inner ribbed body (2) is arranged inside the outer ribbed body (2), that a gap of a permanent projection (h) is formed between the opening of each rib (3) of the outer body and the circumference of the opposite rib of the inner ribbed body (2) along the entire circumference.