RU55440U1 - JET PUMP - Google Patents

Abstract

The invention relates to the field of inkjet technology. The objective of the invention is to provide a jet pump for supplying a reagent solution to the emergency system of a nuclear power plant and providing increased seismic resistance of the device, in particular, under conditions of simultaneous exposure to loads in two horizontal and one vertical directions. The problem is solved in that in a jet pump containing a housing with a nozzle installed in us, a nozzle for supplying a working fluid, a suction nozzle, a mixing chamber and a diffuser, a cross is installed on the nozzle for supplying a working fluid. centered by the peripheral sections of the blades along the inner surface of the pump casing, and the outer surface of the outlet section, nozzles and the reciprocal inner part of the surface of the pump casing are non-linear, convex-concave, forming an annular conical channel, tapering in the direction of movement of the working fluid.

Description

The invention relates to the field of inkjet technology. Known inkjet devices containing an active nozzle, a mixing chamber and a diffuser. In these devices, to determine the dimensions of structural elements, their dependencies on the pressure drop of a mixture of media and active and active liquid medium are used. However, in the process of mixing the media in this case there are large energy losses (see Sokolov E.N. et al. "Inkjet Apparatus", M, Energy, 1970, p.209).

Also known is an inkjet apparatus in which, due to the selected ratios of the areas of the minimum cross section of the mixing chamber and the minimum cross section of the active nozzle, as well as the selected ratio of the distance from the output section of the mixing chamber to the output section of the active nozzle to the diameter of the minimum cross section of the mixing chamber, energy losses during medium mixing are minimized . (RF patent No. 2103561, F 04 F 5/02, 1998).

However, such devices have a limited range of applications, in particular, they cannot be used in the hydraulic lines of emergency systems of nuclear power plants.

The problem to which this invention is directed, is the creation of a jet pump for supplying a solution of reagents to the emergency system of a nuclear power plant and providing increased seismic resistance of the device, in particular, under conditions of simultaneous exposure to loads in two horizontal and one vertical directions.

The problem is solved in that in a jet pump containing a housing with a nozzle installed in it, a nozzle for supplying a working fluid, a suction nozzle, a mixing chamber and a diffuser, a crosspiece is installed on the nozzle for supplying a fluid, centered on the peripheral sections of the blades along the inner surface of the pump housing, and the outer surface of the nozzle exit section and the reciprocal inner part of the surface of the pump housing are non-linear, convex-concave, forming an annular conical channel, tapering along detecting movement of the working fluid.

In this case, the ratio of the distance from the outlet section of the nozzle to the inlet section of the diffuser to the diameter of the passage section of the mixing chamber is from 7 to 9.

In Fig.1 shows a jet pump in section, in Fig.2 - section aa of Fig.1.

The jet pump comprises a housing 1 with a nozzle 2 installed therein, a nozzle 3 for supplying a working fluid, a suction nozzle 4, a mixing chamber 5, a diffuser 6, and a pressure nozzle 7. A nozzle 3 has a cross 8, centered on the inner sections 9 of the blades 10 along the inner the surface 11 of the pump housing, and the outer surface 12 of the output section 13 of the nozzle 2 and the mating inner part 14 of the inner surface 11 of the pump housing are non-linear, convex-concave and thus form an annular conical channel 15, tapering in the directions of movement of the working fluid.

The installation of a cross in the pump housing allows you to get a monolithic design, more resistant to various loads, and the smooth surface of the conical channel can improve the cavitation characteristics of the pump and thereby increase the reliability of the pump.

To ensure the stability of the mixed flow, the ratio of the distance "L" from the outlet section of the nozzle to the inlet section 17 of the diffuser to the diameter "D" of the passage section of the mixing chamber is from 7 to 9.

The jet pump operates as follows. The working fluid under pressure enters through the pipe 3 into the chamber 5. At the outlet of the nozzle 2, the working fluid carries away from the suction

the nozzle 4 the pumped liquid is a reagent solution, which through the mixing chamber 5, the diffuser 6 and the pressure nozzle 7 enters as intended - into the emergency system of a nuclear power plant.

This pump has increased stability under seismic influences and is reliable in emergency conditions - at inlet pressures up to 4.61 MPa and up to 1.96 MPa at the outlet pressure.

Claims (1)

A jet pump comprising a housing with a nozzle installed in it, a nozzle for supplying a working fluid, a suction nozzle, a mixing chamber and a diffuser, while a crosspiece is mounted on the nozzle for supplying a fluid, centered on the peripheral sections of the blades along the inner surface of the pump housing, and the outer surface of the nozzle exit section and the reciprocal inner part of the surface of the pump casing is made non-linear, convex-concave, forming an annular conical channel, tapering in the direction of movement of the working fluid and wherein the ratio of the distance from the nozzle exit section to the inlet section of the cone to the diameter of the mixing chamber's cross section is from 7 to 9.