SU957033A2 - Cavitation tunnel - Google Patents

Description

(54) CAVITATION PIPE

one

The invention relates to hydrodynamic tests, in particular to cavitation pipes, primarily for testing ship propulsion, and is an improvement on the known cavitation pipe.

According to the main author. St. No. 752149 a known cavitation pipe for testing ship propulsion devices, comprising a housing having a lower horizontal section, an air shaft connected to a vacuum pump, and a deaerator having a spraying device mounted in the housing of a cavitation pipe and consisting of a receiving shaft located in the upper part of the lower a horizontal section, a centrifugal water pump with a pipeline connecting the receiving shaft with the air shaft. The spray device is installed in the air shaft and contains a pipe with slotted conical nozzles connected to the pipeline. The nozzles are directed upwards. The air shaft has a metal grid 1, horizontally installed in its middle part.

However, when such a cavitation pipe is operated, the presence of a free water surface in an air shaft leads to hydrodynamic disturbances that penetrate the cavitation pipe through the holes in its body at the air shaft attachment and cause an increase in the intensity of turbulent velocity pulsations in the working section, which worsens hydrodynamic characteristics of a coupling pipe.

The aim of the invention is to improve the performance properties of the cavitation tube by reducing the intensity of the turbulent velocity pulsations in its working section.

The goal is achieved by the fact that it is equipped with butterfly valves mounted on its body at the point of attachment to the last air shaft.

The drawing shows a section of a cavitual f-tube with an air shaft.

The cavitation tube contains a receiving shaft 1, located at the top and at the end (as viewed in the direction of flow) of the lower horizontal portion of the body

cavitation pipe 2, directly before turning the knee 3.

The water centrifugal pump 4 has a water supply pipe 5 connecting the pump 4 to the spraying device 6 installed in the air inlet 7 of the cavitation pipe connected by pipe 8 to a vacuum pump (not shown) and having a horizontal metal mesh 9 in its middle part .

In the housing of the cavitation pipe, downstream from the working section 10, in the place of attachment to the housing of the air shaft, there are butterfly valves 11.

The pipe works as follows.

The device is installed in work station 10, and measurements are taken at various flow rates and at various pressures in the cavitation tube. Before testing, the water filling the cavitation pipe is degassed, i.e., the air content in the water is adjusted to a certain (usually low) amount corresponding to the simulation conditions. The degassing is carried out at a low (1.5 m / s) flow rate in the cavitation pipe using a centrifugal pump 4 and a spraying device 6 mounted in the air shaft 7, in which the vacuum of the air medium is maintained. provided by a vacuum pump. By splashing and crushing the droplets on the screen 9, the free surface of the water increases significantly, and favorable conditions are created for removing dissolved air from it. In the lower part of the air shaft 7, degassed water flows through the holes in the housing (with the flaps 11 open) into the main flow, which is directed to the working section 10 of the cavitation pipe. During the tests, the air shaft 7 is used to establish a predetermined pressure (usually vacuum) in the cavitation tube. Preparation for tests (water degassing and the establishment of a predetermined pressure) are carried out with the open valves II, and the tests themselves are carried out with the closed valves I.

The valves 11 allow, during the tests, to hydraulically disconnect the cavitation tube from the air shaft and prevent the penetration of hydrodynamic disturbances into the flow.

The present invention allows to improve the performance properties of the cavitation pipe and thereby improve the results of model testing.

Claims (1)

Invention Formula Cavitational tube according to ed. St. 752149, characterized in that, in order to improve the operational properties of the pipe by reducing the intensity of turbulent velocity pulsations in its working section, it is equipped with butterfly valves mounted on its body at the point of attachment to the last air shaft. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 752149, cl. O 01 M 10/00, 11/27/81 (prototype).