CS220150B1 - Equipment for filling the pressureless liquid storage - Google Patents

Abstract

Equipment for filling a non-pressurized storage of liquid substances with a low boiling point, especially ammonia and propane from pressure vessels. An expansion vessel is arranged between the filled pressure vessel and the non-pressure storage, the space above the surface of which is connected by a connecting pipe to the distribution pipe. The space above the surface of the non-pressure storage is connected by a return pipe via a compressor to the space above the surface of the expansion vessel.

Description

The invention is. relates to a device for filling a pressureless storage of low boiling liquids, in particular ammonia and propane.

Low boiling point liquid substances include those that have a lower boiling point at ambient pressure than ambient. These substances are generally stored at ambient temperature in pressure vessels at an appropriate pressure which is always higher than atmospheric pressure.

Some types of these liquids, such as ammonia and propane, are stored in particularly large quantities prior to further processing, especially in chemical industry plants. For these amounts, so-called atmospheric stores are formed, formed as closed insulated containers, in which the cooling device maintains a reduced temperature and, as a rule, very little excess pressure against atmospheric pressure in the vapor space. As a rule, the liquid substance is withdrawn into the storage from transportable pressure vessels, for example railway tanks, in which it is transported at a pressure corresponding to the ambient temperature, or from stationary pressure storage. When storing in a warehouse, the entire amount of liquid to be packed must be cooled to the temperature of the storage space, which is usually carried out by means of a cooling device.

The stored liquid is taken from the atmospheric warehouse for further processing in production. As a rule, its pressure is increased by a pump to a pressure somewhat higher than it had in an atmospheric warehouse and is brought to a gaseous state before being processed.

However, the known devices are energy-intensive and increase the cost of filling stations.

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The invention is based on this prior art and solves the filling device by providing an expansion vessel between the folded pressure vessel and the unpressurized warehouse, the space of which above the water level is interconnected with a connecting pipeline and the space above the surface of the depressurized storage space interconnected by a return. via a compressor with a space above the expansion vessel.

The device according to the invention makes it possible to store in the atmospheric warehouse a liquid substance with considerably reduced size, cooling equipment and its total power consumption.

An exemplary embodiment of the invention is shown schematically in the drawing.

From the transporting or stable vessel 1, the low boiling liquid is passed through a throttle 2 into an expansion vessel 3 in which the pressure is lower than in the vessel 1, but some overpressure against atmospheric pressure. The size of this overpressure is determined by the requirements of the manifold 5 through which the gaseous substance is directed for processing in production. At. the pressure drop between vessel 1 and 3 generates vapors and the remaining liquid is cooled to a temperature corresponding to the vapor pressure in the expansion vessel 3. The vapors are discharged from the expansion vessel 3 via the connecting line 4 to the manifold 5, the cooled liquid is transferred through the throttle 6 In this throttling, an additional amount of vapor is generated, which is withdrawn from the store 7 via the return line 8 via a compressor 9 which compresses the vapors to the pressure in the expansion vessel 3.

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Claims (1)

Apparatus for filling a depressurized depot of low-boiling liquids, in particular ammonia and propane from pressure vessels, characterized in that an expansion vessel (3j) is provided between the folded pressure vessel (1j and the depressurized storage (7)), it is connected by a connecting line (4j) to a distribution line (5j) and the space above the surface of the unpressurised storage (7) is connected by a return line (8) via a compressor (9 js above the surface of the expansion vessel).