SU1174808A1 - Cavitation tunnel - Google Patents

Abstract

1. CAVITATION PIPE, comprising a housing with an impeller installed in it, mounted on a motor shaft located outside the housing, the latter being provided with a device for changing pressure and a closed working area for accommodating the tested one. In order to allow the simulation of natural conditions and increase the accuracy of hydrodynamic testing of models, the cavitation pipe is equipped with an airtight reservoir equipped with a pressure reducing valve and pressure indicator, an autonomous vacuum pump and an air lead to the working area in the area where the model is located a flow meter installed in it, with the hermetic tank on one side coo6QieH with a self-contained vacuum pump, and on the other hand with the specified pipeline. S 2. Ka) pipe of operation according to claim 1, (L characterized in that the air supply pipe is filled with a non-return valve. Vj and oo o 00

Description

1 The invention relates to experimental hydrodynamics, namely, cavitation pipes, and is intended to determine the hydrodynamic characteristics of hydraulic mechanisms, for example ship propellers, when air is supplied from the atmosphere by suction itself by means of model tests. The purpose of the invention is to provide the possibility of modeling the natural conditions and improving the accuracy of hydrodynamic testing of models. The drawing shows a cavitadion on the pipe with a closed working area. The sealed tank 1. is connected to an autonomous vacuum pump 2, it has a pressure reducing valve 3 and a pressure indicator 4. Model 5 through pipe 6, equipped with a check valve 7, a float type pump and a rotometer B, is connected to a reservoir. The cavitation pipe has a return channel 9, the working section 10, the pressure in it changes from: by the power of the vacuum pump 11.i The flow velocity is provided by means of an impeller -12, driven by the motor 13, located outside the capacitance. Model 5 is driven by engine 14. The proposed cavitation tube operates as follows. Before testing, the speed of a full-scale object V and its immersion H under the free surface of water are known. Calculate the number of cavitation, density and specific where p, n the weight of water. Based on the size of the model and the provision of a supercritical Ray Nolds number, the flow rate V is determined in the working section 10 of the cavitation pipe and the pressure corresponding to the counting cavitation number is J m i / 2. Figures 2 and 11 establish the pressure values found in the working section of the cavitation pipe P and in the reservoir P. The model is being investigated with the help of a pipe 6 that imitates air supply 1cie on-site connections and with an air cavity in the tank 1. In line 6, to prevent the tank 1 from overflowing with water from the cavitation pipe, when the pressure in the tank 1 decreases below a critical value, a non-return valve 7 of the float type air is installed during the suction itself rotometer 8. Further testing of the models produced according to the standard in the cavitation laboratories using the available equipment.

Claims (2)

1. CAVITATION PIPE, comprising a housing with an impeller installed in it, mounted on an engine shaft located outside the housing, the latter being equipped with a device for changing pressure and a closed working section for accommodating a test model in it, characterized in that, in order to enable modeling of field conditions and increasing the accuracy of hydrodynamic testing of models, the cavitation pipe is equipped with a sealed tank equipped with a pressure reducing valve and a pressure gauge., av onomnym vozduhopodvodyashim vacuum pump and the working portion in the region of placing the model with conduit flow meter installed therein, wherein the sealed reservoir on the one hand communicates with independent vacuum pump and on the other side - with said conduit. § 2. The cavitation pipe according to claim 1, characterized in that the air supply pipe is made with a non-return valve. SU „„ 1174808 1174808 2