DE685024C - Process for preventing ice and naphthalene deposits during the removal and expansion of high-tension gas from a high-pressure container - Google Patents

Description

Process to prevent the formation of ice and naphthalene the removal and expansion of high-tension gas from a high-pressure container the compression of the gas for filling high-pressure gas containers occurs as is known a sharp increase in the temperature of the gas. For example, the final temperature is with a compression of i o atü in spite of the cooling of the gas between the compression stages about i §o ° C. Since the filling and emptying of the high-pressure container is not timed coincide, the gas temperature in the high pressure vessels will increase over time adjust to the outside temperature.

On the other hand, the expansion of the gas takes place under strong pressure Heat consumption. The gas temperature drops far below 0 °, so that in the pressure reducing system Icing and naphthalene deposits occur.

`The present invention makes: it is the task of the named Prevent difficulties. According to the invention, the in the compressed gas The energy contained is used to extract low-pressure gas from the low-pressure vessel : to suck in and to press the gas pressure required for the pipeline. As a result the increase in pressure of the low-tension gas results in a temperature rise, the is balanced again by cooling the relaxed gas. The two gas flows are combined during or immediately after the work process and transferred to the pipeline guided.

The method of the invention is illustrated with reference to the accompanying drawing explained in more detail.

The compressed gas is discharged from the high pressure vessel a via the line b, fed to an injector in which the gas is expanded down to the pipeline pressure will. The expansion of the gas in the injector turns the low pressure gas tank Low-pressure gas is sucked in via line f and, to the pipeline pressure pressed. Shut-off valves c and g are provided in lines b and f. While of expansion and Compression process in the Injektord are the both gas streams combined, with a heat exchange between the one by the relaxation cooled down and that by the ,. Compression heated gas takes place.

In order to prevent the gas from flowing back into three low-pressure containers, check valves k and m are to be provided in the low-pressure supply line f and in the outlet line of the injector d. From learn injector d flows. the gas brought to pipeline pressure through the line lt; in which the shut-off valve is provided into the pipeline. The shut-off device o is built into the high-pressure line b upstream of the injector and is controlled, for example, by a Venturi tube n as a function of the amount of gas flowing into the long-distance line h. In the event of a large withdrawal, the shut-off device o is opened and, on the other hand, if there is less demand, the supply of compressed gas to the injector is correspondingly throttled. The setting of the pipeline pressure is more common. Way made by means of high pressure regulator p.

In the embodiment, the expansion of the gas in one Injector made. The relaxation of the high pressure, can cook without the essence the invention is somehow affected, made in a piston engine, which is directly coupled to a reciprocating compressor. The degree of filling of the machine can be regulated according to the gas pressure. The piston poet has with this one Arrange the open-4 ibe, low-pressure gas from the gas container. To the pipeline pressure to condense.

Through the simultaneous relaxation and condensation of the two different types Gas flows are a balance between the heat consuming and heat generating Achieved operation that eliminates the difficulty in expanding the gas over any Control organs caused by icing and naphthalene deposition as a result of the drop in temperature enter, largely switches off and at the same time the operation of a high-pressure tank system economically designed.

Claims (1)

PATENT CLAIM: Method of preventing. Ice and naphthalene deposits in the removal and expansion of high-tension gas from a high-pressure container for the gas pipeline, characterized in that the compressed gas to gas pipeline pressure relaxed and with gas that is compressed and heated by the energy released is mixed.