NL8205061A - Rigid holder, e.g. for fermentation gas - having flexible partition sepg. gas space from space connected to air compressor - Google Patents

Abstract

Rigid gas holder is intended for gas e.g. as produced by a biological fermentation unit. It comprises a connection via which the gas enters and is discharged into the distribution line. The vessel is sepd. into two compartments by a flexible partition or envelope, one compartment being provided with the said fill and discharge connection whilst the other has a connection to an air compressor operable to maintain constant gas pressure. This other compartment may be provided with a pressure relief valve. The partition may, alternatively, consist of a totally enclosed cylindrical or spherical flexible envelope.

Description

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Hw / Mv / Siemerink 2 Gashouder

The invention relates to a pressure container for a gaseous medium, for example biogas, provided with at least one opening for supplying or discharging the medium under pressure.

The object of the invention is to provide a pressure container for gaseous media with which large quantities of gas can be stored under relatively high pressure. High-pressure containers often have a fixed shape, in contrast to the usual gas containers with an up and down movable roof-10 part. The drawback of gas containers of constant shape, however, is that when the gas decreases, the pressure in the container varies and therefore the gas pressure in the distribution system.

The object of the invention is to eliminate this drawback and to that end provide a means; which is distinguished in that the holder is provided with a screen dividing the space into two sections, wherein the opening communicates with one section and the other section with an opening for supplying ambient air under pressure.

Owing to the possibility of supplying ambient air, the pressure in the entire system can be maintained, because air can be supplied at the same or substantially the same pressure when the consumption gas decreases. The advantage here is moreover that the screen does not have to absorb relatively small forces, because the pressure on both sides of the screen is equal.

The other section is preferably provided with a pressure relief valve, which simplifies the control system considerably, because during production of consumable gas to be stored again in the container, the pressure in the system is automatically maintained.

A particularly simple embodiment is obtained by designing the screen in a cylindrical or convex shape, which at maximum volume can take the shape of the pressure container itself.

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The invention further relates to a gas storage production system, which is provided with a low-pressure tank and a high-pressure container of the above-described type connected via a pipe. In the low-pressure tank, the biogas formed by anaerobic fermentation processes can be temporarily stored before it is discharged to the high-pressure container. It is advantageous to include a gas compressor in the pipe between the two holders.

The invention is further elucidated on the basis of a description of some exemplary embodiments.

The drawing shows:

Fig. A side view of a first embodiment of the container according to the invention,

Fig. 2 shows a cross-section along the line II-II of the container in fig. "1,

Fig. 3 is a side view of the container according to a second embodiment of the invention,

Fig. 4 is a side view of a third embodiment of the invention.

FIG. 5 shows a schematic side view of a gas storage system according to the invention.

Fig. 6 a piping diagram of a variant of a gas storage system.

In the figures, numeral 1 designates a pressure tank 25 of the cylindrical type, which tank is supported on a bottom surface by means of supporting members 2.

The tank 1 is closed on all sides and made of a material suitable for absorbing relatively high pressures, for example 2 bar.

According to the invention, a screen is arranged in the tank, which in the first embodiment according to figures 1 and 2 is made from a flexible screen which is for instance connected to the inner wall of the tank 1 at diametrically opposite points. In this way two sections are effected in the holder 1, in which in one section the gas is stored, which can be removed respectively via an inlet stub or discharge stub 4.

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The other section contains ambient air, under pressure, which can be supplied via the stump 5. The other section is also provided with a drulast valve mechanism 6, through which the ambient air can be discharged.

The embodiment according to the figures 3 differs from the previous one in that the screen here is designed as a cylindrical tank 7 of flexible material, which comes to rest against the entire inside of the pressure tank 1 at maximum gas load. The one section inside the flexible part 7 is connected to a gas supply stub 4, while the space outside the flexible material 7 is provided with an inlet stub 5 for the air and a pressure relief valve 6.

In Fig. 4, instead of a cylindrical embodiment, a spherical embodiment for the pressure tank is shown as the screen arranged therein.

The high pressure container 1 may, according to the arrangement in Fig. 5, be included in a gas storage production system consisting of a tank 10 for the storage or production of the gas under low pressure, for example as released at the anaerobic digestion or fermentation of vegetable or animal material. After sufficient gas has been formed in the tank 10, it can be taken from the container via line 12 by means of a compressor 11 and pressed via line 13 to the inlet stub 4 of container 1. The pipe 13 is provided with a branch 14 which leads directly to the consumer network. The compressor 11 is also provided with a part 15, with which ambient air is removed from the environment via the air filter 16 and is supplied in compressed form via the line 17 to the other section in the pressure vessel 1.

It will be clear that the gas tank can be incorporated in the network in a very simple manner and that with the proposed pressure system a constant pressure in the consumer network is maintained.

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After all, when the gas is withdrawn from the container 1 and the resulting pressure drop will be compensated by supply of air by means of the compressor part 15. When new gas is supplied again by compressor 11, the gas will on the one hand via pipe 14 to the consumer network. and on the other hand via pipe 13 to the gas holder 1. During this supply, air from the other section will be displaced via the relief valve 6.

Figure 6 shows a variant of the gas storage-10 system in which the same elements have the same figures.

The system consists of the high-pressure gas holder 1, to which a second low-pressure gas holder 20 is placed in parallel, also the low-pressure gas holder has a screen as used for the high-pressure gas holder 1. The low pressure is maintained by means of of the associated fan 21. The advantage in this arrangement is that in the case of gas consumption smaller or equal to production, only the low-pressure gas container is used. Additional energy for compression is then not required. At peak draw-off, the high-pressure container 1 can be addressed, while at no draw-off, the high-pressure container 1 can be refilled. Due to the compression (12 bar), a considerable amount of gas can be stored here, making the storage system extremely flexible.

If necessary, gas can be returned to the fermentation tank via a return line 22 with a gas pressure regulator.

The high-pressure pipe 14 is here provided with a pressure regulator 24 in order to bring the gas pressure to the required low level of container 20. An end controller 25 provides the required distribution pressure.

The invention is not limited to the above-described embodiments. Thus, the compressor can alternately send the service gas and the ambient air to the pressure sections in the tank via an appropriate valve mechanism or such control system.

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Claims (7)

1. Pressure container for a gaseous medium, for example biogas, provided with at least one opening for supplying or discharging the medium under pressure, characterized in that in the container is arranged a screen dividing the space into two sections, wherein the opening communicates with one section and the other section with an opening for supplying ambient air under pressure. 2. Pressure container according to claim 1, characterized in that the other section is provided with a pressure relief valve. Pressure container according to claims 1 and 2, characterized in that the screen has a closed shape such as a cylindrical or spherical shape. Gas storage system, provided with a low-pressure tank and high-pressure container connected via a pipe according to any one of the preceding claims. Storage system according to claim 4, characterized in that a gas compressor is included in the pipe. Storage system according to claims 4 and 5, characterized in that a low-pressure gas container with screen is arranged parallel to the high-pressure gas container. Storage system according to claim 6, characterized in that the high-pressure container is connected to the pressure tank 10 via a return line 25. 8205061