SU1751582A1 - Open-circuit water tunnel - Google Patents

Abstract

The invention relates to equipment for hydrodynamic stands. The purpose of the invention is to reduce the experimental error by reducing the air content of the liquid. The liquid from the supply tank (E) 7 through the pump 1, the valve 8, the additional air vent (U) 9, the supply pipe 2, the regulating valve (K) 6, U 5 is supplied to the working section 4 and through the discharge pipe 3, 6 is returned to E 7. Free gas from Y 9, made in the form of pressurized E 10 with nozzles, 11 inlet and outlet, and loss reduction devices 15, T6, is removed by ejector 12 through conduit 14 by supplying active liquid through conduit 13 1 or

Description

The invention relates to experimental hydrodynamic equipment and can be used in the design of open-type hydrodynamic pipes.

The aim of the invention is to reduce the error of the experiment by reducing the air content of the liquid.

The drawing shows a diagram of an open type hydrodynamic pipe.

The hydrodynamic pipe contains a pump 1, a supply pipe 2 and a discharge pipe 3, a working section 4 and an air exhaust device 5 between them, control valves 6. The hydrodynamic pipe is connected to a flow tank 7 through a valve 8. An additional air vent device is installed between pump 1 and flow tank 7. 9, which consists of a sealed container 10, the lower part of which is connected by nozzles 11 to the supply tank 7 and pump 1. The upper part of the sealed container 10 is connected to the nozzle of the working medium vector 12, the active fluid in which of the inlet pipe 2 of the hydrodynamic pipe is supplied through the pipe 13. Air ejector 12 from the sealed container 10 is removed through the pipe 14 air exhaust. Inside the sealed container 10, devices are installed to reduce hydraulic losses during fluid movement in it in the form of a set of diffusers 15 with different opening angles and a confuser 16 with walls having constant curvature.

An open-type hydrodynamic pipe works as follows.

The pump 1 takes liquid from the supply tank 7 and feeds it through the supply pipe 2, the control valve 6, the air exhaust device 5 to the working section 4, after which the water returns to the supply tank 7 through the discharge pipe 3 and the control valve 6 of the discharge pipe 3. than the liquid enters the pump, it passes through the valve 8, which cuts off the hydrodynamic pipe from the flow tank during the repair of the elements of the hydrodynamic pipe, and an additional air exhaust device 9. After the valve 8 An ode through the pipe 11 of the air exhaust device 9 enters the lower part of the sealed container 10. A set of diffusers 15 with different opening angles installed at the liquid inlet to the sealed container 10 reduces the velocity of the liquid entering the sealed container 10, and thereby reduces the hydraulic losses generated at the inlet . Air that enters the sealed container 10 with liquid in the form of bubbles rises to the top of the sealed container 10 and the ejector: 12 together with a certain amount of liquid is removed through the air exhaust pipe into the atmosphere, and the liquid that enters the ejector 12 exhaust pipe 14 is returned into the supply tank 12. The liquid released in the sealed container 10 from air bubbles enters the pipe 11 through the confuser 16 having walls with constant curvature, and then flows to the pump 1. Installing the confuser 16 also allows t to reduce hydraulic losses during fluid movement in the additional air exhaust device 9. The installation of nozzles 11 in the lower part of the tank 10 contributes to a more effective cleaning of the liquid from the air.

The use of the fluid pumped through the hydrodynamic pipe as an active fluid in the ejector makes it possible to efficiently remove air from the device 9 due to the energy of the pump 1.

Claims (1)

Claim An open-type hydrodynamic pipe containing a supply tank, a pump with a suction nozzle, inlet and outlet pipelines with an air exhaust device located between them and a working section, characterized in that, in order to reduce the experimental error by reducing the air content of the liquid, the hydrodynamic pipe is equipped with an additional an air exhaust device installed in front of the suction pipe of the pump and made in the form of a sealed container located in its lower part of the pipe water inlet and outlet, hydraulic loss reduction devices and an ejector with nozzles for supplying active and working media and air exhaust, connected via pipelines to the upper part of the sealed container, the inlet pipe of the hydrodynamic pipe, atmosphere and flow tank, while devices for reducing hydraulic losses are installed inside a sealed container on its nozzles and made in the form of a set of vertically oriented diffusers with different opening angles on the nozzle along doors in the form of a confuser with walls having constant curvature on the branch pipe.