SU1100458A1 - Device for feeding condensed gas - Google Patents

Abstract

1. A DEVICE FOR LIQUID GAS SUPPLY, - containing an angled manifold with valves at the ends, inverted cylinders connected through valves to the collector, a moisture collector and a receiving tank connected through valves to the lower end of the collector, characterized in that in order to simplify the design and increase productivity, it is provided with a curved pipeline connected to the upper end of the collector and the receiving tank. 2. A device according to claim 1, characterized in that the upper part of the curved pipeline is located above the cylinders, and the receiving tank is located below the collector. (L 4 SL 00

Description

The invention relates to a cryogenic technique and can be used to fill reservoirs with a liquefied gas with a higher degree. A carbon dioxide supply device is known, comprising a collector at an angle to the horizon with a valve at the lower end, inverted cylinders under the valves connected to the collector, a moisture collector-expander and a receiving reservoir connected through the valves to the lower end of the collector 1. The disadvantage of this device is There is a considerable time for the liquefied gas to overflow from the cylinders to the receiving tank (consumer), because until the water is completely drained from the cylinders into the moisture collector, the expander the carbon supply valve The drain from the collector to the consumer must be closed. The closest to the present invention is a device for supplying liquefied gas, containing a collector at an angle to the horizon with valves at the ends, inverted cylinders connected through valves to the collector, moisture collector and a receiving tank connected through valves to the lower end of the collector, as well as an expander cylinder connected to the upper end of the manifold 2. However, the known device has an additional expander balloon, which increases the metal consumption. In addition, the filling time of the receiving tank is increased due to the reverse flow of gas from the expander cylinder to the receiving tank. The purpose of the invention is to simplify the design and increase productivity. This goal is achieved by the fact that a device for supplying liquefied gas, containing a collector located at an angle to the horizon, with valves at the ends, inverted cylinders connected through valves to the collector, moisture collector and a receiving tank connected to the lower end of the collector through valves, is bent pipeline connected to the upper end of the collector and the receiving tank. In addition, the upper part of the curved pipeline is located above the cylinders, and the receiving tank is located below the collector. The drawing shows the proposed device. . The device contains a collector 1. At an angle to the horizon. With valves 2 and 3 at the ends, inverted cylinders 4 connected via valves 5 to the Collector 1, moisture collector 6 and receiving tank 7 connected respectively via valves 8 and 9 to the lower end of the collector 1. The device is also provided with a curved pipe 10 connected to the upper end of the collector 1 and the receiving tank 7. The upper part of the pipe 10 is located above the cylinders 4, and the tank 7 is below the collector 1. The proposed device works as follows . When valve 2 is closed, valves 5 and 5 are opened. To collector 1, they connect cylinders 4 with liquefied gas, for example carbon dioxide, with a pressure of about 65 atm and a temperature of 10-25 ° C. The water bottled in the cylinders 4 is drained together with liquid carbon dioxide through valves 5 into collector 1. Due to the increase in volume due to the moisture attached to collector 1 of collection 6 of moisture, curved pipeline 10 and reservoir 7, carbon dioxide from the liquid phase passes into gaseous. At the same time, the water is discharged through the collector 1 through the open valve 8 into the collection 6 of moisture. Since the specific weight of liquid carbon dioxide is 0.75–0.85 kg / l, which is less than the specific weight of water, water is discharged from the cylinders 4 first of all and only a small amount of liquid carbon dioxide that evaporates. A slight decrease in the temperature of the water in the collector 1 due to the evaporation of carbon dioxide is compensated for by the heat leakage from the environment. Gaseous carbon dioxide enters through the curved pipe 10 and open valves 3 and 9 into the receiving tank 7, and the location of the upper part of the curved pipe 10 above the cylinders 4 prevents water from entering with the liquid carbon dioxide into the tank 7. When the liquefied gas flows, there are no ice plugs, since the pressure differential between the reservoir 1 and reservoir 7 does not exceed 5 atm. After draining, the valve 8 is closed and the valve 2 is opened for supplying liquefied gas from the collector 1 to the tank 7. Moreover, the tank 7, by this time, will be filled with carbon dioxide gas to a pressure of 5-20 atm. Pressure control is carried out by gauge. In the overflow process, the pressure in the cylinders 4 remains constant, and in the tank 7 it rises and becomes equal to the pressure in cylinders 4, i.e. 65 atm Therefore, the flow of liquid carbon dioxide occurs at the initial moment under the action of the pressure of the liquid column and the pressure difference in the cylinders 4 and reservoir 7, and then by gravity under the action of hydrostatic pressure only. After the tank 7 is filled, the valves 2, 3 and 9 are closed, and the tank 7 is detached from the device. Water from collection3 11004584

nick 6 moisture is drained when closed venti-application of the proposed device

Le 8 by gravity. reduces the metal structure

The filling of the next tank 7, due to the exclusion of an additional baloscale, in the same, e-sequential; expansion chamber and shortens the transfer time, but with the valve 8 closed, as the flow of gas due to the combination of operations

yes from the cylinders 4 is already drained. After emptying the water and filling the receiving reserve of the cylinders 4, they are replaced by new gas with an intermediate pressure.

Claims (2)

1. LIQUEFIED GAS SUPPLY DEVICE, 'comprising a manifold located at an angle to the horizontal with valves at the ends, inverted cylinders connected through valves to the manifold, a moisture collector and a receiving reservoir connected through valves to the lower end of the manifold, characterized in that, with In order to simplify the design and increase productivity, it is equipped with a curved pipe connected to the upper end of the collector and the receiving tank. 2. The device according to π. 1, characterized in that the upper part of the curved pipeline is located above the cylinders, and the receiving tank is located under the collector.