SU1435816A1 - Apparatus for measuring static component of cavitation margin pump - Google Patents

Abstract

The invention makes it possible to improve the accuracy of determining the pump cavitation reserve. The steam generator 1 is made in the form of a tube 2 with a central channel (K) 3 communicated with the cavity 4 of the suction nozzle (P) 5 and having a local constriction 6. The output 9 K 3 is connected to the reduced pressure zone 8 by sucking off. G "Guide element 7. To 3 a pressure sensor 10 is connected. K 3 is plugged from the frontal section 11. In tube 2 in the zone adjacent to section 11, through holes 12 are made 12. The steam generator 1 is mounted in cavity P 5 by means of radial ribs 13, each of which has a longitudinal slot 15 from the leading edge. Slot 15 is connected to one of the holes 12. The short-circuit is communicated with the cavity P 5 through the slots 15 and the holes 12. Element 7 is made in the form of a confusion-diffuser insert 16 mounted on the P 5. Taking fluid through the slots 15 allows you to effectively average t component and the phase composition of the pumped medium over the cross-section of P 5. The profiling of the element 7 and its placement in P 5 simultaneously with the placement of outlet 9 in the zone of least pressure allows using the energy of fluid pressure at the pump inlet, which increases the efficiency of the pump. 2 Il. (L from SP 05 05

Description

 1/2 ig 20 6

T 2

7

9UZ.1

The invention relates to hydraulic engineering and can be used to determine the cavitation reserve of a pump operating on fluids with a significant unevenness in the field of temperatures or concentrations.

The aim of the invention is to improve the accuracy by averaging the temperature and composition of the working fluid over the cross section of the suction nozzle while simultaneously increasing the efficiency of the pump.

FIG. Figure 1 shows a diagram of a device for measuring the static component of a pump's cavitation reserve; in fig. 2 shows section A-A in FIG. one;

A device for measuring the static component of the pump's cavitation stock contains a steam generator 1 made in the form of a tube 2 with a central channel 3 communicated with the cavity 4 of the suction port 5 of the pump and having a local constriction 6, the suction element 7 to the reduced pressure zone 2 of the outlet 9 of the channel 3 tubes 2 of the steam generator 1, and a pressure sensor 10 connected to channel 3.

The channel 3 of the tube 2 of the steam generator 1 is filled from the side of the frontal section 11, the E5 tube 2 in the area adjacent to the latter, through holes 12 are made, the steam generator 1 is mounted in the cavity 4 of the suction nozzle 5 by means of radial ribs 13, each of which is from the leading edge 14, a longitudinal slot 15 is connected to one of the holes 12, and the channel 3 of the steam generator 1 communicates with the cavity 4 of the suction pipe 5 through the said slots 15 and the holes 12, while the suction element 7 is made in the form of confused air diffuser insert 16 installed in the suction nozzle 5.

The insert has successively located 10 to the flow direction of the fluid sections 16-18, having respectively a confused cylindrical and diffuser forms. Channel 3 of tube 2 may be in the form of a Venturi tube, while local restriction 6 is located in the throat of the latter, perforated by radial channels, 19 and encompassed by an annular leveling manifold 20. The pressure at the inlet, in the cylindrical section 17 and at the exit from the diffuser-diffusion insert ( position not indicated) is equal respectively to P |, P2 and P3. The output 9 of channel 3 can be profiled as a diffuser.

The device works as follows.

When the pump is operating, the fluid passing through the suction inlet 5 is divided into two streams. One flow passes through the annular gap between the outer surface of the tube 2 and the wall of the nozzle 5, the pressure P2 in cylindrical

five

0

with:

0 o

five

0

five

The section 17 is reduced by increasing the flow rate. Another flow through the longitudinal slots 15 and the openings 12 connected to them enters the central channel 3 of the tube 2. In the local constriction 6, the pressure decreases to the pressure of the saturated steam of the pumped liquid. This pressure through the radial channels 19 and the manifold 20 is supplied to the pressure sensor 10. The static component of the cavitation margin is equal to the difference between the pressure of R. 3 at the pump inlet and the pressure of saturated steam.

The removal of fluid through the slots 15 effectively averages the temperature, component and phase composition of the pumped medium over the cross section of the suction nozzle 5, and thus increases the accuracy. Profiling the suction element 7 and placing it in the suction inlet 5 simultaneously with placing the diffuser outlet 9 of the channel 3 in the zone of lowest pressure P2 allows using the energy of the fluid inlet to the pump to organize the flow of fluid through the channel 3 and eliminate the use of an ejector, which ultimately improves pump efficiency compared to a known device.

Claims (1)

Invention Formula A device for measuring the static component of the pump's cavitation reserve, comprising a steam generator made in the form of a tube with a central channel communicated with the cavity of the pump suction inlet and having a local constriction, suction element, to the reduced pressure zone of which the channel output of the converter tube is connected, and a pressure sensor connected to said channel, characterized in that, in order to increase accuracy by averaging the temperature and composition of the working fluid over the cross-section of the suction patra When the pump efficiency is at the same time, the channel of the steam generator tube is plugged from the frontal section in the tube, in the zone adjacent to the last, through holes are made, and the steam generator is mounted in the cavity of the suction nozzle by means of radial ribs, each of which is made from the leading edge a longitudinal slot connected to one of the holes, and the steam generator channel communicates with the cavity of the suction cup through the said slots and holes, with the suction element in a full-convergent diffuser insert setup. in the suction pipe. Rig.2