METHOD FOR LEAK TESTING A TANK HEAD BEFORE IT ENTERS SERVICE

Abstract

Method for leak testing a tank head, intended to be filled with a gas under high pressure and before it enters service, which head including at least two sealing devices, referred to as an inner and an outer sealing devices, which delimit there between an intermediate space into which opens a duct which communicates with the outside, such that: said test is carried out during the manufacture of the tank assembly, after fitting the tank head and before this tank is filled with high-pressure gas, pressurized gas is injected via the duct into the intermediate space between the two sealing devices, the gas injection is stopped at a given pressure, the value of said pressure is measured via said duct

Claims

1. Method for leak testing a tank head intended to be filled with a gas under high pressure, which head being fastened inside a boss located on a wall of said tank delimiting an inner chamber capable of receiving the gas and opening therein, and including inner and outer sealing devices which delimit therebetween an intermediate space into which opens a duct which passes through the tank head and communicates with an outside thereof, the method comprising: pressurized gas is injected via the duct into the intermediate space between the two sealing devices, the injection of gas is halted at a given pressure, the magnitude of said pressure is measured via said duct, wherein said test is carried out during the manufacture of the tank assembly, constituted by said tank at least equipped with the tank head 2 thereof, after fitting same and before this tank is filled with high-pressure gas, and if the measurement of the magnitude of said pressure indicates a drop thereof, the environment surrounding the head is tested from the outside to detect whether there is a gas leak originating from the outer seal.

2. Method for leak testing a tank head according to claim 1, wherein if the leak test is negative for the outer seal, it is deduced that the inner seal is leaking.

3. Method for leak testing a tank head according to claim 1, wherein the pressurized gas used is hydrogen at a pressure of at least 100 bar.

4. Method for leak testing a tank head according to claim 1, wherein the tank head is fastened in the boss by screwing and the sealing devices used are O-ring seals.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] FIG. 1A is an overhead view of a gas cylinder or tank equipped with a tank head according to the disclosure, and thus forming a tank assembly.

[0018] FIG. 1B shows a sectional view along the A-A plane in FIG. 1A.

[0019] FIG. 2 is an enlarged view of the feature C in FIG. 1B showing the tank head for implementing the method according to the disclosure.

DETAILED DESCRIPTION

[0020] According to the representation shown in the figures, a tank head 2, intended to be filled with a high-pressure gas, is fastened, preferably by screwing 11, into a boss 4 located on the wall 1 of said tank and opening therein, said head 2 thus plugging the orifice 5 of this boss; which wall 1 delimits an inner chamber 3 capable of receiving the gas and is made of a material and has a thickness ensuring its ability to withstand the gas storage pressure such as up to at least 100 bar, and even 300 bar, or up to at least 700 bar for hydrogen.

[0021] This tank head 2 can include, depending on the uses, various ducts (such as that 9 shown in FIGS. 1A and 2 and opening out onto the top of the head 2), which pass through the thickness of the head 2 from end to end and which bring the chamber 3 into communication with the outside 10 and which thus receive, at the end thereof opening out to the outside, piping connectors, closure plugs, valves, etc.

[0022] This tank head 2 comprises at least two sealing devices 6, 7, preferably O-ring seals, referred to as an inner O-ring seal (for the seal located the closest to the chamber 3), and an outer O-ring seal (for the seal located the closest to the outside 10 of the tank), which delimit therebetween an intermediate space 12 into which opens a duct 8 that passes through the tank head 2 and communicates with the outside 10 thereof.

[0023] Thus, the sealing at the tank head 2 can be tested according to the method of the disclosure by following testing steps such as: [0024] carrying out said test during the manufacture of the tank assembly, constituted by said tank at least equipped with the tank head 2 thereof, after fitting same and before this tank is filled with high-pressure gas, [0025] injecting a pressurized gas via the duct 8 into the intermediate space 12 between the two sealing devices 6, 7, [0026] halting the injection of gas at a given pressure P, [0027] measuring the magnitude of said pressure (P) via said duct 8, [0028] if the measurement of the magnitude of said pressure (P) indicates a drop thereof, testing, from the outside 13, the environment surrounding the head 2 to detect whether there is a gas leak originating from the outer seal 6, [0029] and if the leak test is negative for the outer seal 6, deducing that the inner seal 7 is leaking.

[0030] In one preferred application, the pressurized gas used is hydrogen at a pressure of up to at least 100 bar, and even 300 bar and up to at least 700 bar, bearing in mind that the method according to the present disclosure is most advantageous when a large quantity of gas is required to carry out the test (volume/pressure ratio), i.e. especially for applications at 300/350 bar and 700 bar.