FR3087245A1 - ANTI-COLLAPSE DEVICE FOR PRESSURE GAS STORAGE TANK - Google Patents

Abstract

The present invention relates to an anti-collapse device (100) for a pressurized gas storage tank (110), said tank being defined by an upper part and a lower part, said tank (110) comprising a reinforcing filament winding. and a sealed envelope open at at least one of its ends, defining a pressure gas storage volume, consisting of a base (111) open at the top of the tank, a liner (113), said tank (110) comprising in addition a resistant structure (114) made of composite material, said anti-collapse device (100) comprising at least one vent (116) allowing the evacuation of the gas trapped between the envelope and the resistant structure (114) made of composite material, said vent (116) being distinct from the open base (111).

Description

ANTI-COLLAPSE DEVICE FOR PRESSURE GAS STORAGE TANK

Field of the invention

The present invention relates to the field of pressurized gas storage tanks.

The present invention relates more particularly to the field of pressurized gas storage tanks comprising an envelope defining a gas storage volume open at at least one of its ends, comprising one or more base (s) as well as a wall of 'flexible internal sealing, hereinafter designated by the English term "liner", and a filament winding reinforcement disposed on all or part of its outer surface. The bases represent the interfaces of the tank with the gas circuit on the open end side and can be used as interface for fixing the tank.

The present invention relates more particularly to tanks using metal bases made of steel or aluminum alloy, and liners made of thermoplastic materials used in type IV storage tanks, but may be applicable to assemblies using bases made of materials. plastics, plastics reinforced with short or long fibers, other metallic materials, and using liners made of polymeric materials other than thermoplastics and used in pressurized fluid storage tanks, in liquid or gaseous form.

State of the art

There are known in the prior art gas storage tanks comprising a sealed envelope consisting of one or more metal bases, at least one of them being open, and a liner made of polymer material.

The main advantages of liners made of polymeric materials compared to liners made of metallic materials are mechanical resistance superior to cyclic stresses and reduced mass. However, during the phases of use of the tanks, it has been found that this type of construction is sensitive to the rate of gas discharge. A too high emptying speed can lead to degradation of the envelope by permanent deformation of the polymer liner, commonly known as "collapse" in English.

Figures 1A and 1B show overall views of a tank 10 according to the state of the art. FIGS. 1A and 1B show a tank 10 of the state of the art, comprising an open base 11, a liner 13 and a resistant structure 14. In addition, the tank 10 in FIG. 1B comprises a closed base 12.

One of the possible reasons for the collapse phenomenon is the relative permeability to stored gas of the polymer material used to make the liner. Part of the gas initially inside the envelope passes through the wall of the liner. In conventional tanks, the composite structure, whether or not glued to the envelope, delays or prevents the evacuation of this gas to the outside and can lead to the creation of gas pockets between the envelope and the resistant structure . During the emptying, the gas trapped between the envelope and the composite structure is not evacuated and leads to the formation of blisters on the liner. This permanent deformation of the liner can lead to cracks in the wall and compromise the tightness of the tank.

FIGS. 2A and 2B illustrate a detail on a bonded bond between the envelope and the resistant structure for a tank according to the state of the art. FIGS. 2A and 2B show a bond 15 bonded between the envelope and the resistant structure 14. We also observe a liner 13 in these Figures. In addition, there is a base 12 closed in Figure 1A and a base 11 open in Figure 1 B.

The French patent N ° FR is also known in the prior art

015 630 B1 (STELIA AEROSPACE COMPOSITES), which relates to a tank intended for the storage of pressurized liquid or gaseous media.

The invention described in this French patent of the state of the art relates more particularly to a tank intended for the storage of liquid or gaseous media under pressure, comprising an inner envelope defining a storage chamber, said inner envelope comprising an opening, a base placed at said opening to ensure the interior / exterior connection of said reservoir and a mechanical reinforcement envelope surrounding at least said interior envelope, said base comprising a hollow cylindrical neck portion defining an interior channel and an annular portion comprising a bottom surface constituting the lower surface of said base, said lower surface being placed opposite a contact surface of said inner casing. According to this prior art invention, said base comprises in its thickness at least one vent distinct from said channel, said at least one vent opening at one of its ends at the lower surface of said annular part and at its other end in said interior channel so as to ensure the evacuation of gases having passed through the wall of the interior envelope.

Also known in the prior art is French patent No. FR 3 015 629 B1 (STELIA AEROSPACE COMPOSITES), which relates to a tank intended for the storage of pressurized liquid or gaseous media. The invention described in this French state of the art patent relates more

5 in particular a tank intended for the storage of pressurized liquid or gaseous media, comprising an interior envelope defining a storage chamber, said interior envelope comprising an opening, a base placed at the level of said opening to ensure the interior connection, exterior of said tank and a mechanical reinforcement envelope surrounding at least

0 said inner envelope. According to this invention of the state of the art, - said base comprises a first base portion integral only with said interior envelope and a second base portion integral only with said mechanical reinforcement envelope, said first and second portions of base being distinct and not linked together, - the space separating said base portions forming a vent ensuring the evacuation of the gases having passed through the wall of the interior envelope.

Presentation of the invention

The present invention intends to remedy the drawbacks of the prior art by proposing an anti-collapse device for a pressurized gas storage tank, said tank consisting of a reinforcing filament winding and a sealed envelope open to at least one of its ends comprising an open base, a closed base and a polymer liner, allowing rapid filling, storage and emptying of a gas under pressure without permanent deformation of the liner and benefiting from the advantages of the previously mentioned polymer liners of the state of technique. Quick drain means a drain of up to 2 kg / s of gas.

The present invention constitutes a particularly simple variant to implement.

To this end, the present invention relates, in its most general sense, to an anti-collapse device for a pressurized gas storage tank, said tank being defined by an upper part and a lower part, said tank comprising a filament winding of reinforcement and a sealed envelope open at at least one of its ends, defining a volume for storing gas under pressure, consisting of a base open at the top of the tank, a liner, said tank further comprising a resistant structure of composite material , said anti-collapse device comprising at least one vent allowing the evacuation of the gas trapped between the envelope and the resistant structure of composite material, said vent being distinct from the open base.

According to one embodiment, the vent is located in the lower part of the tank.

According to one embodiment, the vent is located in a closed base or is a closed base.

The preferred path for evacuating trapped gas is obtained when the liner is moved under the effect of the external pressure locally applied by this gas (commonly called "blistering" in English). The effect of this displacement is to generate a passage between the sealed envelope and the resistant structure up to the vent or to the network of vents arranged on the closed base allowing the evacuation of the trapped gas.

Thus, the device according to the present invention makes it possible to obtain a reservoir having a reinforcing filament winding and a sealed envelope open at at least one of its ends comprising two bases and a polymer liner, allowing rapid filling, storage and emptying. of a pressurized gas without permanent deformation of the liner and benefiting from the advantages of polymer liners, ie a reduced mass and improved fatigue resistance.

According to one embodiment, said liner is made of polymeric materials.

According to one embodiment, the interface between the external surface of the liner and the resistant structure of composite material is not bonded.

According to one embodiment, the interface between the external surface of the liner and the resistant structure in composite material allows the circulation of trapped gases between the external surface of the liner and the resistant structure in composite material.

According to a variant, said resistant structure made of composite material is kinematically linked with the open base and with the closed base.

Advantageously, the area of the bases in contact with said resistant structure of composite material has functions of locking in rotation and in translation.

According to one embodiment, the envelope is formed by the liner and the open base, these two constituents being able to be assembled by gluing, by welding, by mechanical connection or any other connection allowing the gas stored to be sealed.

According to one embodiment, the closed base is positioned without mechanical connection, only by contact with the liner.

The present invention also relates to a tank comprising a device conforming to the device mentioned above.

The present invention also relates to a vehicle, land or sea, comprising such a tank, to stationary equipment comprising such a tank, and to an aircraft comprising such a tank.

0 Brief description of the drawings

The invention will be better understood using the description, given below for purely explanatory purposes, of an embodiment of the invention, with reference to the Figures in which:

5 · Figures 1A and 1B show overall views of a tank according to the state of the art;

* Figures 2A and 2B illustrate a detail on the bonded bond between the envelope and the resistant structure for a tank according to the state of the art;

Figure 3 shows a tank with trapped gas evacuation system, in an embodiment of the present invention; and * Figures 4A and 4B illustrate a tank with trapped gas evacuation system, in an embodiment of the present invention.

DescMoiidétem ^^

The present invention relates to an anti-coilapse device 100 for a tank 110 for storing pressurized gas.

The present invention relates more particularly to an anti-collapse device 100 for tank 110 for storing gas under pressure, said tank being defined by an upper part and a lower part, said tank 110 comprising a reinforcing filament winding and a sealed envelope. open at at least one of its ends, defining a pressure gas storage volume, consisting of a base 111 open at the top of the tank, a liner 113, said tank 110 further comprising a resistant structure 114 made of composite material, said anti-collapse device 100 comprising at least one vent 116 allowing the evacuation of the gas trapped between the envelope and the resistant structure 114 of composite material, said vent 116 being distinct from the open base 111.

In the context of the present invention, the reservoir 110 comprises a reinforcing filament winding and a sealed envelope open at at least one of its ends, defining a storage volume of pressurized gas, consisting of a base 111 open as well as d a liner 113 which, in one embodiment, is made of polymer, and is designed so that there is a space between all or part of the external surface of the envelope and all or part of the surface internal of the resistant structure 114, and that there is a preferred path for evacuating the gas trapped in the space between the envelope and the resistant structure 114.

In one embodiment, the vent 116 is located in the lower part of the tank. It can for example be at a level corresponding to 30% of the tank. Said vent 116 is preferably located opposite the open base 111.

In one embodiment, the vent 116 is located in a closed base 112 or else is a closed base 112.

The preferred gas evacuation route is integrated into the design of the closed base 112.

The device according to the present invention applies more particularly to tanks having an operating pressure between 300 and 1500 bars.

Figure 3 shows a tank 110 with trapped gas evacuation system, in an embodiment of the present invention.

FIG. 3 shows a tank 110 comprising a closed base 112, a liner 113, a resistant structure 114 and a vent 116 for the evacuation of the trapped gas.

In one embodiment, the waterproof envelope is formed by the polymer liner 113 and the open base 111, these two constituents being able to be assembled by gluing, by welding, by mechanical connection or any other connection allowing sealing to the stored gas. . The closed base 112 is positioned without mechanical connection, only by contact with the polymer liner 113. The closed base incorporates one or more vents 116 allowing the evacuation of the gas trapped between the envelope and the composite structure.

The resistant structure is made in such a way that it is kinematically linked with the two bases, 111 open and 112 closed. For this, the area of the bases 111 and 112 in contact with the resistant structure 114 integrates the functions of locking in rotation and in translation.

The interface between the external surface of the polymer liner 113 and the resistant structure 114 is not bonded. The preferred path for evacuating trapped gas is obtained when moving liner 113 under the effect of the external pressure locally applied by this gas (blistering). This displacement has the effect of generating a passage between the sealed envelope and the resistant structure 114 to the vent 116 or to the network of vents 116 arranged on the closed base 112 allowing the evacuation of the trapped gas.

Figures 4A and 4B illustrate a tank 110 with trapped gas evacuation system, in one embodiment of the present invention.

FIG. 4A shows a tank 110 in the storage and filling phase, in which the evacuation path 120 is closed under the effect of internal pressure.

FIG. 4B shows a tank 110 in the emptying phase, in which the evacuation path 121 is opened by the effect of the gas trapped outside the sealing envelope.

The invention is described in the foregoing by way of example. It is understood that a person skilled in the art is able to carry out different variants of the invention without going beyond the scope of the patent.

Claims (13)

1. Anti-collapse device (100) for pressurized gas storage tank (110), said tank being defined by an upper part and a lower part, said tank (110) comprising a reinforcing filament winding and an open sealed envelope at at least one of its ends, defining a pressure gas storage volume, consisting of a base (111) open at the top of the tank, a liner (113), said tank (110) further comprising a resistant structure (114) made of composite material, said anti-collapse device (100) being characterized in that it comprises at least one vent (116) allowing the evacuation of the gas trapped between the envelope and the resistant structure (114) made of composite material , said vent (116) being distinct from the open base (111). 2. Anti-collapse device (100) for pressurized gas storage tank (110) according to claim 1, characterized in that the vent (116) is located in the lower part of the tank. 3. Anti-collapse device (100) for pressurized gas storage tank (110) according to claim 1 or 2, characterized in that the vent (116) is located in a closed base (112) or is a base (112) closed. 4. Anti-collapse device (100) for a pressurized gas storage tank (110) according to claim 1, characterized in that said liner (113) is made of polymer. 5. Anti-collapse device (100) for a pressurized gas storage tank (110) according to claim 1 or 2, characterized in that the interface between the external surface of the liner (113) and the resistant structure (114) made of composite material allows the circulation of trapped gases between the external surface of the liner (113) and the resistant structure (114) made of composite material. 6. Anti-collapse device (100) for pressurized gas storage tank (110) according to claim 3, characterized in that said resistant structure structure (114) made of composite material is kinematically linked with the open base (111) and with the base (112) closed. 7. Anti-collapse device (100) for pressurized gas storage tank (110) according to claims 3 and 4, characterized in that the area of the bases (111, 112) in contact with said structure (114) resistant in composite material has rotation and translation blocking functions. 8. Anti-collapse device (100) for pressurized gas storage tank (110) according to one of the preceding claims, characterized in that the envelope is formed by the liner (113) and the base (111) open, these two constituents can be assembled by gluing, welding, mechanical connection or any other connection allowing sealing of the stored gas. 9. Anti-collapse device (100) for pressurized gas storage tank (110) according to claim 3, characterized in that the closed base (112) is positioned without mechanical connection, only by contact with the liner (113 ). 10. Tank comprising a device according to one of the preceding claims. 11. Vehicle, land or sea, comprising a tank according to claim 8. 12. Stationary equipment comprising a reservoir according to claim 8. 13. Aircraft comprising a tank according to claim 8.