TH70955A - Methods and equipment for bottling compressed liquids with minimal oxygen capture. - Google Patents

Abstract

DC60 The liquid carbon dioxide compression system consists of a gas pressure source. carbon dioxide Manual three-way valve system for operator Which has cavity 1, cavity 2 and cavity 3 with valve condition 1, valve condition 2 and valve condition 3, in which condition 1 connects phase 1 to cavity 2, in condition 2 will Connect channel 2 to channel 3 and in state 3 it will turn off transmission. Inside between all compartments The valve system connects channel 1 and the fluid pipeline passes to the compression source. Pressure carbon dioxide And there is a cover set with a nozzle from the liquid container screwed to the flange, with a connection to the fluid pipeline through to channel 2 of the three-way valve system. The system is characterized by a three-way valve system. In condition 1, it allows carbon dioxide gas under Pressure into the liquid container Placing a three-way valve system in condition 2 is per container. Liquid with the 3rd cavity of the three-way valve system Causing the liquid container to be reduced to pressure And the implementation of the three-way valve system in condition 3 closes all the passages connected to the flow channels The liquid carbon dioxide compression system consists of a gas pressure source. carbon dioxide Manual three-way valve system for operator Which has cavity 1, cavity 2 and cavity 3 with valve condition 1, valve condition 2 and valve condition 3, in which condition 1 connects phase 1 to cavity 2, in condition 2 will Connect channel 2 to channel 3 and in state 3 it will turn off transmission. Inside between all compartments The valve system connects channel 1 and the fluid pipeline passes to the compression source. Pressure carbon dioxide And there is a cover set with a nozzle from the liquid container screwed to the flange, with a connection to the fluid pipeline through to channel 2 of the three-way valve system. The system is characterized by a three-way valve system. In condition 1, it allows carbon dioxide gas under Pressure into the liquid container Placing a three-way valve system in condition 2 is per container. Liquid with the 3rd cavity of the three-way valve system Causing the liquid container to be reduced by pressure And the implementation of the three-way valve system in condition 3 closes all the passages connected to the flow channels.

Claims (2)

1. The liquid carbon dioxide compression system consists of a compressed gas source of carbon dioxide. Three-way valve system That the user can use With the flow channel 1, channel 2 and channel 3, the valve conditions 3 are valve condition 1, valve condition 2 and valve condition 3 where condition 1 connects channel 1 to the outlet. 2nd valve condition 2 connects channel 2 to cavity 3, and valve 3 blocking all internal passages. The valve system connects the channel 1 to the fluid supply line to the carbon dioxide pressurization source, and has a shut-off unit that consists of a flange securing the nozzle of the liquid container, and there is also a long slit along the fluid pipe to the Channel 2 of the three-way valve system Characteristics of the three-way valve system Is at positioning the three-way valve system In condition 1 position, carbon dioxide under pressure is passed into the container.If the three-way valve system is placed, in condition 2, the liquid container is connected to the 3rd cavity of the three-way valve system, which puts the pressure in the container. The liquid was lowered. If a three-way valve is placed in condition 3, it closes all passages between the flow gap 2. System of claim 1 where the three-way valve system consists of a single valve with an internal rotating component to achieve a Of valve 3 condition 3. System of claim 2 where the rotating components are within Being rotated by electricity and a system consisting of a control panel That contains input from the user to initiate various conditions 4. Two Claims Systems with rotatable components inside. Can work by hand 5. The system of claim 1 also consists of Pressure regulator Attached to the source of compression Pressure carbon dioxide And valve for shutdown 6. The system of claim 1 also consists of a limiting channel in the valve shut-off unit. Resulting in the gas being Expulsion from the liquid container at a limited rate 7. The claim 1 system also includes: Zoning type valve housings With the function of the valve through the wall Valve housings and nozzles are passed through the valve housings which are connected to the third pass of the three-way valve. 8. System of claim 1 where the shut-off unit consists of a valve stem screwed onto the container screw cap. The liquid is filled with an air chuck attached to the valve stem and is connected to the fluid pipeline through the channel. Second of the three-way valve 9. System of claim 1 Used in conjunction with a water chiller 1 0. Method of compressing carbon dioxide in liquids Consists of the process of (a) putting liquid into a container. Let there be a volume of air above the liquid level at a pressure of 1 atmosphere (b) compressing the carbon dioxide into the portion of the air volume above. The liquid level to at least 2 times the atmospheric pressure (c) release the pressure in the flask to return to one atmosphere. Which reduces the air mass For at least twice the volume of the air above the liquid (d) compresses carbon dioxide again and (e) shaking the container so that the superfluid gas portion Got into the liquid 1 1. The method of claim 10 includes the next step in releasing the pressure in the container. After the process of shaking the bottle Back to one atmosphere 1 2. Method of claim 11, where the final pressure is released. Achieved through limited channels To slow 13 Method of Claim 10, which is a multiplex pressure step and a pressure release process, is accomplished before the shaking process.