KR920004923Y1 - A cracking tester - Google Patents

Abstract

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Description

Hydrogen organic crack testing device capable of removing emulsified hydrogen gas

1 is a schematic diagram of a test apparatus according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: nitrogen container 2: hydrogen sulfide container

3: equalization tank 4: test tank

5: waste liquid collection tank 6,7,8: neutralization tank

9: washing tank 10,11: opening and closing valve

101-110: Conduit

The present invention relates to a hydrogen-hydrogen organic crack test apparatus for steel pipe material, and more particularly to a hydrogen-resistant organic crack test apparatus capable of removing the toxic gas emulsified hydrogen gas.

In the case of steel pipe materials used in the hydrogen gas (H ₂ S) gas environment such as steel pipe for oil transportation or natural gas transportation, hydrogen resistance cracking resistance (HIC) is performed by testing hydrogen induced cracking (HIC). Check it.

Japanese Laid-Open Utility Model Publication No. 55-136964 discloses such a test apparatus, whereby hydrogen sulfide gas is generated in a glass test to measure the resistance of the test piece to hydrogen gas.

However, the test apparatus is not provided with a means for removing the emulsified hydrogen gas discharged after the test, there is a problem of toxic gas poisoning and pollution caused by this.

Accordingly, an object of the present invention is to provide a hydrogen-resistant organic crack test apparatus capable of efficiently treating the toxic gas generated after the test by solving the above problems.

For this purpose, the test apparatus according to the present invention, a nitrogen gas container containing nitrogen gas for removing impurities in the test tank and the conduit before the start of the test, an emulsified hydrogen container containing a test emulsion gas (H ₂ S), and A gas supply device having a pressure equalizing tank for sending nitrogen and hydrogen hydrogen gas transferred from the nitrogen gas container and the emulsion hydrogen container to the next test tank under equal pressure; A test apparatus having a test tank containing artificial seawater, performing an emulsified hydrogen test of specimens (steels) deposited therein by receiving nitrogen gas and hydrogenated hydrogen transferred from the gas supply device; A gas control device having a neutralization tank for receiving the hydrogen emulsion discharged from the test apparatus and neutralizing it with a sodium hydroxide solution, and a gas cleaning tank for neutralizing the hydrogen sulfide which is not neutralized in the neutralization tank by spraying the hydroxide solution again. ; And a waste liquid collection tank receiving wastes discarded from the test apparatus and the neutralization tank and sending the hydrogenated hydrogen gas generated from the waste to the cleaning tank. Is made of.

Each said device and its respective components are connected by conduits.

Nitrogen gas contained in the nitrogen gas container sweeps impurities in the test tank before the test, and an opening and closing valve is attached to the outlet of the nitrogen gas container and the hydrogen hydrogen gas container, respectively, and a flow regulator for controlling their flow rate is attached. It may be used.

The pressure equalizing tank receives and equalizes the nitrogen and hydrogen hydrogen gas transferred from the nitrogen gas container and the hydrogen sulfide container respectively or together, and sends these mixed gases to the next test tank.The conduit from the pressure equalizing tank is the following test tank. It extends to the bottom.

The test tank contains artificial seawater, and the crack test is carried out under the same environment as the actual use of the specimen with the transported emulsified hydrogen gas. For this purpose, a heater and a pH meter may be installed.

On the test tank, a conduit for discharging hydrogenated hydrogen gas during the test to the next neutralization tank is installed, and at the bottom thereof, a conduit for connecting the waste liquid to the next waste collection tank is connected.

The hydrogen sulfide gas discharged from the test tank goes to the next neutralization tank. In the neutralization tank, the hydrogen hydrogen gas reacts with sodium hydroxide in the neutralization tank, and the hydrogen sulfide gas is precipitated with sodium emulsion.

At this time, the reaction between hydrogen sulfide gas and aqueous sodium hydroxide solution proceeds as follows.

H ₂ S + 2NaOH → Na ₂ S + 2H ₂ O

Emulsified hydrogen gas in the neutralization tank can be more reliably removed by going through several stages of neutralization tank.

Hydrogen emulsified gas remaining after roughening in the various stages of the neutralization tank is discharged to the washing tank, and then neutralized again by injection of NaOH solution in the washing tank.

The washing tank is equipped with a pH meter for measuring pH, a circulation pulp for raising the internal NaOH solution to the atomizer, and an atomizer.

On the other hand, the waste liquid discharged from the bottom of the test tank and the neutralization tank is collected in the waste liquid collection tank, and the generated H ₂ S gas is sent to the gas cleaning tank by a blower and neutralized and removed by spraying NaOH solution there.

By using the test apparatus of the present invention as described above, the amount of H ₂ S finally released to the atmosphere can be managed to 10 ppm or less, much lower than the 30 ppm of the EPA.

Hereinafter, an embodiment of the present invention will be described in more detail based on the accompanying drawings.

Referring to FIG. 1, a nitrogen vessel 1 having an open and close side 10 and an hydrogen sulfide container 2 having an open side 11 are connected to a pressure equalizing tank 3 through a conduit 10. On the conduit 101, a gas flow controller 12 is provided for controlling the amount of gas discharged from the nitrogen and hydrogen sulfide containers to the equalization tank.

The pressure equalizing tank 3 is connected to the test tank 4 by a conduit 102; The conduit 102 extends to the bottom of the test bath 4.

The test tank 4 has a pH meter 13 and a heater 14 for fitting test conditions to actual use conditions therein, respectively, and a neutralization tank and waste liquid collection at the upper and lower portions of the serum tank 4, respectively. Conduits 103 and 106 connected to the tub are provided.

The neutralization tank 6 connected to the test tank by the conduit 103 contains 20% NaOH aqueous solution, and neutralization tanks 9 and 10 having the same structure are provided in the neutralization tank 6, respectively. .

The neutralization tank is connected with the cleaning tank 9 through the dosing 108 to remove residual hydrogenated gas which is not neutralized in the neutralization tank, and the cleaning tank 9 contains a 20% NaOH solution and the NaOH A circulation pump 17 for elevating the solution and an atomizer 20 for spraying the elevated NaOH are installed, and an outlet 18 for discharging hydrogen sulfide gas that has not been removed until the last is formed at the upper end. It is.

On the other hand, the waste tank 5 is connected to the test tank 4 and the bottom of the neutralization tank (8), (9) and (10) through the conduit 106 through the opening and closing side, It is connected with the conduit 109 through a conduit 107 connected at the top thereof.

Inside the waste collection tank (5) and the washing tank (9), a waste level measuring device (15) and a pH measuring device (19) are installed, respectively, and the neutralization tanks (6), (7), (8), The blower 16 for drawing up the hydrogen sulfide from the waste liquid collection tank 5 is provided.

The device of the present invention configured as described above is used to improve the impurity gas contained in the test tank 4 and the conduit through the nitrogen vessel 1 through the nitrogen vessel 1, and then test the hydrogen sulfide from the hydrogen sulfide gas vessel 2. (4) It is supplied into the inside, and the pH is measured by adjusting the pH and temperature of the test solution with the pH meter 13 and the heater 14.

Hydrogen emulsified gas used in the test passes through the neutralization tank (6), (7) and (8) sequentially through the conduit 103 installed on the test tank (4), which emulsifies during the neutralization tank Hydrogen gas is reacted with 20% aqueous NaOH solution in the neutralization tank as described above to precipitate out with sodium Na ₂ S.

Hydrogen gas remaining unreacted while passing through the neutralization tanks (6), (7) and (8) is combined with the hydrogen hydrogen gas discharged from the waste liquid collection tank (5) and then cleaned by a blower (16). 9), the washing tank (9) is to meet the NaOH aqueous solution sprayed by the atomizer installed on the upper is to be neutralized again.

When using the device according to the present invention as described above, the amount of hydrogen sulfide discharged after the test can be reduced to a minimum.

Claims (1)

A hydrogen organic crack test apparatus for steel materials, comprising a nitrogen gas container (1) containing nitrogen gas for removing impurities in a test tank and a conduit, and a hydrogen sulfide (H ₂ S) for testing. And a pressure equalizing tank connected to the nitrogen gas container and the hydrogen hydrogen container and sending nitrogen and hydrogen hydrogen gas transferred from the nitrogen gas container and the hydrogen hydrogen container to the next test tank under equal pressure (3). Gas supply apparatus having; A test device (4) for receiving an emulsified hydrogen supplied from the gas supply device and performing an emulsified hydrogen test of a specimen (steel material) deposited in artificial seawater inside; Neutralization tanks 6, 7 and 7, which are connected to the test apparatus 4 by a conduit and neutralize hydrogen hydrogen gas discharged from the test apparatus 4 and neutralize it with sodium hydroxide (NaOH) therein. 8) is connected to the neutralization tank and the waste liquid collection tank to be discharged, and receives residual emulsion hydrogen discharged from the neutralization tank without being neutralized, and hydrogen hydrogen discharged from the waste liquid collection tank to be described later, and the sprayer 20 is installed on the upper portion again. A gas removal device (9) having a gas cleaning tank (9) for reacting with sodium hydroxide to be neutralized; And a waste liquid which receives wastes discarded from the test apparatus 4 and the neutralization tanks 6, 7 and 8 and discharges the hydrogen sulfide generated from the wastes to the washing tank 9 through a conduit 107 formed thereon. Hydrogen organic crack test apparatus capable of removing emulsified hydrogen gas including a collection tank (5).