SU1009480A1 - Device for removing gas from liquid - Google Patents

Abstract

A DEVICE FOR REMOVING GAS FROM A LIQUID, including a housing with an inlet and outlet Gattubes and a filtering element made of a hydrophobic material, characterized in that, in order to improve the separation of the gas and liquid phases, by twisting the flow and increasing the pressure differential on the filtering element, the filtering element is represented by It is a coil located in the body, the ends of which are connected to the branch pipes, and the body has an additional branch pipe for. connection to a vacuum pump. from 4 eo

Description

The invention relates to medical equipment and can be used to remove gas from blood and other biological fluids in artificial and auxiliary devices, blood circulation, dialyzers and sorption devices.

Known filter 'for removing gases, particulate matter and oil [1].

The disadvantage of this filter is its short run time. 1θ

A device for removing gas from a liquid is also known, including a housing with ‘inlet and outlet nozzles and a filter element made of 'hydrob - ·· phobic material [2]. fifteen

The disadvantage of this device is the low efficiency of gas removal, as a result of which a significant part of the gas remains in the Liquid, which can lead to a gas embolism of 20

The aim of the invention is to improve the separation of gas and liquid phases by swirling the flow and increasing the pressure drop across the filter element 25. '

The goal is achieved in that in a device for removing gas from a liquid, comprising a housing with inlet and outlet nozzles and a filtering element ₃ q of a hydrophobic material, the filtering element is a coil located in the housing, the ends of which are connected to the nozzles, and the housing has an additional - a pipe for connection to a vacuum pump.

The drawing shows the proposed device for removing gas from a liquid.

Inside the housing 1 there is a filter element made in the form of a coil 2 of macroporous hydrophobic glass of the brand, for example, DV-1Sh, connected to the inlet 3 and outlet 4 of the nozzle of the housing 1, while 45 the housing 1 is equipped with a nozzle 5 for connection to a vacuum pump (not shown in the drawing).

To intensify the process of removing gas from the fluid, the diameter of the 5Q filter element-2 is greater than the diameter of the nozzles 3.4, and the wall thickness of the coil 2 is less than the wall thickness of the nozzles 3 and 4.

The horizontal arrow shows the direction of fluid movement, the vertical arrow indicates the direction of the gas pump.

The operation of the device is as follows.

Using pipes 3 and 4, the device is installed, for example, on pu ~. the blood supply line of any device that uses the principle of regional blood perfusion, cardiopulmonary bypass or dialysis. · The place of installation of the device for blood flow in the blood supply line should be after passing through the oxygen generator, antifoam and air trap of the devices. Such a place of installation of the device ensures the removal of finely dispersed gas globules from the blood, which may remain in the fluid after foaming during oxygenation, despite the presence of known defoamers and air traps. This is especially true for blood, which has a high viscosity. During the passage of liquid, for example, blood, through the coil 2, a vacuum is simultaneously created in the chamber of the housing 1, which is created by a vacuum pump connected to the nozzle 5. In this case, gas is removed from the liquid through the pores of the macroporous glass of the coil in the housing 1.

To prevent sticking of suspended particles of a fluid, for example, blood cells, to the inner surface of a coil 2, the vacuum pump can operate in a pulsating mode. Closing the pores of the filter element with blood cells is ruled out because <they cannot penetrate into the pores in their large size, and the hydrophobized surface of the device coil and the constant blood flow through the system also prevent blood coagulation and pore closure.

The centrifugal forces arising from the fluid flow in the coil contribute to a better separation of the liquid and gas phases and the passage of the latter through the filter element.

The device has small dimensions with a significant gas filtration surface and can work at any position in space. Twisting the flow and increasing the pressure drop across the filter element at physiological values of blood pressure improves the efficiency of gas removal from the liquid.

VNIIIPI Order 2539/4 'Circulation 711 Subscription

Branch of the PPP Patent, Uzhgorod, Project 4,

Claims (1)

DEVICE FOR REMOVING GAS FROM LIQUID, comprising a housing with inlet and outlet (nozzles and a filter element made of hydrophobic material, characterized in that, in order to improve the separation of the gas and liquid phases by twisting the flow and increasing the pressure drop across the filter element the element is a coil located in the housing, the ends of which are connected to the nozzles, and the housing has an additional nozzle for connection to a vacuum pump.