KR101889306B1 - Method for testing metal corrosion by hydrogen sulfide - Google Patents

Abstract

The present invention relates to a method for testing metal corrosion by hydrogen sulfide and, more specifically, relates to a method for testing metal corrosion by hydrogen sulfide, wherein after mounting a test specimen in a container composed of a body of which an upper portion is opened and a cover sealing an opening of the upper portion of the body, the container is sealed, and hydrogen sulfide is injected into the inside of the sealed container. Therefore, corrosion of the test specimen is tested. According to the present invention, a case is integrally formed to safely and quickly test metal corrosion by hydrogen sulfide that is a poisonous gas, and the container is small and light to be simply operated. Therefore, when a test is performed once, a lot of test specimens can be tested.

Description

METHOD FOR TESTING METAL CORROSION BY HYDROGEN SULFIDE

More particularly, the present invention relates to a method for testing metal corrosion by hydrogen sulfide gas (H ₂ S), which is a toxic gas, safely, quickly, and accurately, The present invention relates to a metal corrosion test method using a hydrogen sulfide gas that can be tested.

In general, corrosive solution such as brine which corrodes metals and members constituting various structures or machines used in the atmosphere of corrosive gas such as sulfur and hydrogen gas should be excellent in corrosion resistance.

In the utility model registration No. 0338690, as a conventional method for corrosion test of such members, a specimen is simply put into a test box of a square box structure made of an opaque material, and a corrosion solution and a corrosive gas are injected thereinto to test the corrosion resistance of the specimen However, in this conventional technique, since the test tank is made of a simple case structure using an opaque material, there is a problem that the corrosion precision can not be visually confirmed and the precision and efficiency of the test are inferior.

The Utility Model Registration No. 0338690 discloses a device capable of testing toxic gas as a support; Wherein a thermocouple and a heater are provided on the outer circumferential surface and the drain means for discharging the corrosive solution is provided at the lower portion Joe; A perforated plate horizontally disposed in the test tank; A cover plate detachably attached to the test tank so as to cover the upper portion of the test tank, the cover plate being made of transparent acrylic and equipped with a gas injection valve for injecting corrosive gas and a gas vent for discharging corrosive gas from the test chamber; A test tank of the hydrogen organic filer corrosion test apparatus is described.

Meanwhile, the prior art Patent Laid-Open No. 10-2008-0057360 includes a storage tank, a test tank, a supply pipe and a discharge pipe, and a supply valve and a discharge valve with respect to the corrosion test apparatus, And the test solution is safely accommodated, and such a storage tank is made of a material having appropriate chemical properties so that the test solution is received and chemical reaction does not occur.

However, the above conventional toxic gas corrosion test apparatuses have a disadvantage in that the corrosion test is insecure, the test takes a long time, the operation is inconvenient, and the test apparatus is large and heavy.

The present invention relates to a method and apparatus for metal corrosion test by a hydrogen sulfide gas which can be tested safely and quickly by a hydrogen sulfide gas which is toxic gas, small in size, light in weight, simple in operation, And to provide a corrosion test method.

The metal corrosion test method using hydrogen sulfide according to the present invention is characterized in that a test specimen is not placed inside a container made of a body having an open upper part and a lid for sealing the upper opening part of the body and then sealing the container and hydrogen sulfide It is characterized by testing the corrosion of test specimens by injection.

Therefore, the present invention can provide a metal corrosion test by a hydrogen sulfide gas which is a toxic gas, which is formed integrally with the case, can be safely and quickly conducted, is small in size, light in weight and simple in operation, And the like.

1 is a photograph showing a container of the present invention.
2 is a photograph of the upper side of the container of the present invention in another direction;
3 is a photograph showing the container body of the present invention.
4 is a vertical sectional view of the container body of the present invention.
5 is a photograph showing a test specimen placed in the container body of the present invention.
6 is another photograph of a pipe for heat exchange inserted into the container of the present invention.
FIG. 7 is a photograph showing the movable hook of the present invention. FIG.
8 is a photograph showing the test specimen placed on the movable hook of the present invention.
9 is a perspective view of a packing member according to another embodiment mounted in the container of the present invention.
10 is an enlarged perspective view of a portion of a packing member according to yet another embodiment mounted in a container of the present invention;
11 is a use state of a packing member according to still another embodiment mounted on the container of the present invention.

The test method for metal corrosion test using hydrogen sulfide according to the present invention is characterized in that a test specimen 200 is placed inside a container 100 composed of a main body 110 having an upper part opened and a lid 120 for sealing an upper opening of the main body 110 After the chicken, the container 100 is sealed and the corrosion of the test specimen 200 is tested by injecting hydrogen sulfide into the enclosed container 100.

A pair of polygonal fixed hooks 130 having a hooking groove 131 formed on an upper surface of the body 110 are fixed and spaced apart from each other by a predetermined distance so that the hooking groove 131 of the pair of fixed hooks 130, The test specimen 200 is placed on the test specimen 200 to prevent contamination of the test specimen 200.

The main body 110 of the container 100 is molded so that the synthetic resin material is molded and integrated.

A movable type hanger 140 is fixed to a bottom surface of the main body 110 to fix the test specimen 200. The movable hanger 140 has a predetermined length A vertical step 142 is formed in a lower direction at both ends of the vertical step 142 and a locking step 145 is formed at a lower end of the vertical step 142 in a direction parallel to the horizontal end 141 in a direction opposite to each other, A nut bolt is vertically formed at the center of the horizontal end 141. A tightening bolt 143 is fastened to the nut bolt through the nut hole so as to move up and down. The test specimen 200 is fixed to the movable hanger 140 by pressing the upper surface of the test specimen 200 by lowering the tightening bolt 143 after the both ends of the test specimen 200 are placed on the movable hanger 140 to be.

Hereinafter, a method of metal corrosion test using hydrogen sulfide according to the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a photograph showing the container of the present invention, Fig. 2 is a photograph of the upper side of the container of the present invention in another direction, Fig. 3 is a photograph showing the container body of the present invention, The test specimen is placed on the container body of the present invention.

As shown in FIGS. 1 to 5, the method for testing metal corrosion by hydrogen sulfide according to the present invention includes a main body 110 having an open upper part and a lid 120 for sealing an upper opening of the main body 110. The present invention relates to testing corrosion of a test specimen 200 by sealing a container 100 and injecting hydrogen sulfide into the enclosed container 100 after the test specimen 200 is placed inside the enclosure 100.

The lid 120 is provided with a gas inlet 122 for injecting sulfide gas into the interior of the container 100 and a gas outlet 123 for discharging the injected gas to the outside, A method and an apparatus for injecting and discharging the fluid are common means, and a detailed description thereof will be omitted.

A heat exchange pipe 170 for adjusting the internal temperature of the container 100 is mounted on the lid 120. The heat exchange pipe 170 is located on the outer side of the lid 120, The inner temperature of the vessel 100 is controlled by moving the fruit body to the inside of the heat exchange pipe 170 by being positioned inside the vessel 100.

The lid 120 is provided with a temperature sensor mount 124 for measuring the internal temperature of the container 100 and a pH check mount 125 for measuring acidity, The PH check slot 125 is also a well-known generic structure, and a detailed description thereof will be omitted.

At this time, the main body 110 of the container 100 is molded so that the synthetic resin material is integrally molded.

Preferably, the main body 110 is made of an acrylic resin in the form of a plate, and is bonded to the main body 110 through a common adhesive.

The lid 120 is also made of an acrylic resin having the same material as that of the main body 110.

4, a side surface of the main body 120 is formed to have a thickness of 18 to 20 T, and a bottom surface of the main body 120 is formed to have a thickness of 10 to 12 T, As shown in FIG.

That is, the lower end of the main body 110 is made 18T and the upper end is made 20T.

On the upper surface of the main body 110, a seating groove (not shown) is formed along the periphery of the main body 110, and a packing member 150 is inserted into the seating groove.

The packing member 150 is preferably made of synthetic rubber or soft synthetic resin to improve the sealing force.

A packing member (not shown) is mounted on the lower surface of the lid 120 facing the packing member 150 inserted in the mounting groove of the main body 110 to improve the sealing force.

One of the packing members 150 mounted on the cover 120 or the main body 110 may have a convex portion having a vertical cross sectional shape protruding from the lower surface of the cover 120 or the upper surface of the main body 110, And another packing member 150 is formed with a concave portion corresponding to the convex portion to further improve the sealing force.

A plurality of through holes 111 and 121 are formed along the edges of the main body 110 and the lid 120 to fasten the main body 110 and the lid 120. The through holes 111 and 121 The main body 110 and the lid 120 are tightly fastened to each other using a fastening member such as a bolt.

A pair of polyhedron fixing hooks 130 having hooking grooves 131 formed on the upper surface of the main body 110 are fixedly installed at a predetermined distance from each other.

The fixed fastener 130 is preferably made of an acrylic resin having the same material as that of the main body 110.

The corrosion test can be performed while preventing the contamination of the test specimen 200 by placing the test specimen 200 in the hooking grooves 131 of the pair of the fixing hooks 130.

More specifically, a plurality of hooking grooves 131 are formed on the upper surface of the fixed hook 130 so that hooking rods 160 having a round bar shape are placed in the hooking grooves 131, 160 on the upper surface of the test specimen 200.

At this time, the hooking bar 160 is formed into a round bar shape to minimize the contact surface with the test piece 200, and is made of acrylic resin.

A hook hole 132 is formed in a side surface of the fixed hook 130 so as to face each other in a direction opposite to the hook hole 130. One end of the hook rod 160 is inserted into the hook hole 130, It may be enforced.

6 is another photograph of a heat exchange pipe inserted into the container of the present invention.

As shown in FIG. 6, the heat exchange pipe 170 used in the present invention is formed in a jig shape so as to increase the heat exchange area inside the container 100.

FIG. 7 is a photograph showing the movable type hanger of the present invention, and FIG. 8 is a photograph showing the test specimen placed on the movable type hanger of the present invention.

As shown in FIGS. 7 to 8, on the bottom surface of the main body 110, a movable hanger 140 having an external test specimen 200 fixed thereon is placed to perform a corrosion test.

More specifically, the movable hook 140 has vertically extending ends 142 at both ends of the horizontal end 141 having a predetermined length, and at the lower end of the vertical ends 142, And a latching step 145 is formed in a direction parallel to the horizontal plane 141.

A nut hole is vertically formed at the center of the horizontal end 141, and a tightening bolt 143 is fastened to the nut hole to vertically move through the nut hole.

The test specimen 200 is placed so that both ends of the test specimen 200 are placed on the pair of the engagement protrusions 145 and then the bolt 143 is lowered to press the upper surface of the test specimen 200, And is fixed to the movable hook 140.

In order to prevent breakage of the test specimen 200, a pushing bar 144 is fastened to the lower end of the tightening bolt 143 in a direction parallel to the horizontal end 200.

In particular, the push bars 144 are fastened so as not to be affected by the rotation of the tightening bolts 143.

That is, a groove is formed on the upper surface of the push bar 144 and is fastened to the lower end of the tightening bolt 143. The lower end diameter of the tightening bolt 143 is formed to be larger than the diameter of the body so that the lower end of the tightening bolt 143 Since the lower end of the tightening bolt 143 idles on the pushing bar 144 even if the tightening bolt 143 rotates along the nut hole and moves up and down by tightening the pushing bar 144 so as not to be separated from the upper surface of the pushing bar 144, (144) does not rotate.

The buffer member 146 is mounted on the upper surface of the pair of latching tails 145 and the lower surface of the push bar 144 so that the test specimen 200 can be firmly and stably moved And is fixedly mounted in the hook 140.

The buffer member 146 is made of synthetic rubber or hard synthetic resin, and the transfer chamber holder 140 is made of acrylic resin.

The buffer member 146 is formed in a round bar shape so that it can be easily replaced when necessary and a buffer member 146 is attached to the buffer bar 144 and the latching jaw 145 where the buffer member 146 is mounted (Not shown) so that the semi-circular space portion has a vertical cross-sectional area greater than 1/2 and less than or equal to 2/3 of the cross-sectional area of the buffer member 146 .

When the buffer member 146 is inserted into the space defined by the coupling protrusions 145 and the pressing bar 144 in the longitudinal direction, the buffer member 146 is easily separated from the coupling protrusions 145 and the pressing bar 144 .

Fig. 9 is a perspective view of a packing member according to still another embodiment of the present invention, Fig. 10 is an enlarged perspective view of a part of a packing member according to still another embodiment of the present invention, Fig. Fig. 7 is a view showing the state of use of the packing member according to the embodiment. Fig.

9 to 11, a coupling ring 151 is formed at both ends of the packing member 150, and the coupling member 150 is formed at both ends of the packing member 150 One of the coupling rings 151 is formed to face upward, and the other is formed to face downward.

In particular, the shape of the coupling ring 151 is formed so as to correspond to each other in the vertical direction.

When the length of the packing member 150 is extended, the packing member 150 is arranged in a line in the longitudinal direction, and the length of the packing member 150 is extended by binding the fastening ring 151 formed at the end portion .

More specifically, the coupling ring 151 has an L-shaped vertical cross section and protrudes from both ends of the packing member 150 so as to be vertically shifted. Preferably, the coupling ring 151 Even if they are bound to each other, the portions bound to each other should be kept in the same thickness.

Therefore, when the size of the container 100 is changed, the circumference of the body 100 and the lid 120 are different, and accordingly, the length of the packing member 150 must be separately formed in accordance with the circumference of the container 100 , The length of the packing member 150 can be extended to fit the circumference of the container 100 as shown in FIG.

The upper surface of the main body 100 of the container 100 and the lower surface of the lid 120 are formed with a seating groove for inserting the packing member 150. The packing member 150 is inserted into the seating groove Since the coupling rings 151 are engaged with each other, the sealing force can be continuously maintained even if the length of the packing member 150 is extended.

10, a container 152 having an internal space therein is contained in the coupling ring 151 of the packing member 150. In the internal space of the container 152, The cylindrical magnet 153 is rotated in the inner space of the container 152 when the coupling rings 151 of the packing member 150 are coupled to each other, So that a stronger bonding relationship can be maintained.

In the present invention, the container 152 is cylindrical.

Therefore, the present invention can provide a metal corrosion test by a hydrogen sulfide gas which is a toxic gas, which is formed integrally with the case, can be safely and quickly conducted, is small in size, light in weight and simple in operation, And the like.

100. The container
110. Main body 111. Seat groove
113. Through hole
120. Lid 111. Through hole 122. Gas inlet
123. Gas outlet 124. Temperature sensor mounting hole 125. PH Checker mounting hole
126. Heat exchange pipe
130. Fixing hook 131. Hook groove 132. Hook hole
140. Removable hanger 141. Water level 142. Vertical stage
143. Fastening bolts 144. Push bars 145. Jaws
146. Buffer member
150. Packing member 151. Coupling ring 152. Container
153. Cylindrical magnet
160. Hanging rods
170. Heat exchange pipe
200. Test Specimen 210. Cylindrical Specimen 220. Multilayer Specimen

Claims (3)

The test specimen 200 is placed inside the container 100 composed of the main body 110 having the upper part opened and the lid 120 closing the upper opening part of the main body 110 and then the container 100 is sealed A method for testing corrosion of a test specimen (200) by hydrogen sulfide by injecting hydrogen sulfide into a closed container (100)
The lid 120 is provided with a gas inlet 122 for injecting sulfide gas into the interior of the container 100 and a gas outlet 123 for discharging the injected gas to the outside, The heat exchange pipe 170 is mounted on the outer side of the lid 120 and the body is positioned inside the container 100 to allow the heat exchange pipe 170 to be inserted into the heat exchange pipe 170. [ The inner temperature of the container 100 is controlled by moving the fruit object into the interior of the container 100,
The lid 120 is provided with a temperature sensor mount 124 for measuring the internal temperature of the container 100 and a pH check mount 125 for measuring acidity,
The main body 110 of the container 100 is made of synthetic resin material so as to be molded and integrated,
A pair of polygonal fixing hooks 130 having hooking grooves 131 formed on the upper surface of the body 110 are fixedly mounted at a predetermined distance from each other.
The corrosion test can be performed while preventing the contamination of the test specimen 200 by placing the test specimen 200 in the hooking grooves 131 of the pair of the fixed hooks 130,
A plurality of hooking grooves 131 are formed on the upper surface of the fixed hook 130 so that hooking rods 160 each having a round bar shape are placed in the hooking grooves 131, And the test specimen 200 is placed on the test specimen 200,
A hooking hole 132 is formed in the side surface of the fixed hook 130 so as to face each other and one end of the hooking rod 160 is inserted into the hooking hole 132, And,
A movable hanger 140 is fixed to the bottom surface of the main body 110 to fix the test specimen 200 thereon.
The movable hanger 140 has vertical ends 142 formed at both ends of a horizontal end 141 having a predetermined length in a downward direction and a horizontal end 141 in a direction opposite to the lower ends of the vertical ends 142, The latching protrusions 145 are formed in a direction parallel to the direction of the arrow A. That is,
A nut hole is vertically formed at the center of the horizontal end 141. A tightening bolt 143 is fastened to the nut hole so as to pass through the nut hole and move up and down.
The test specimen 200 is put on the upper surface of the test piece 200 by lowering the tightening bolt 143 so that both ends of the test piece 200 are placed on the pair of the latching jaws 145, (Not shown)
In order to prevent breakage of the test specimen 200, a pushing bar 144 is fastened to the lower end of the tightening bolt 143 in a direction parallel to the horizontal end 141,
The pressing bar 144 is fastened to the lower end of the tightening bolt 143 so as not to be affected by the rotation of the tightening bolt 143. The fastening bolt 143 has a groove formed on the upper surface of the pressing bar 144, The diameter of the lower end of the bolt 143 is set to be larger than the diameter of the body so that the lower end of the tightening bolt 143 is not separated from the upper surface of the pushing bar 144 so that the tightening bolt 143 rotates along the nut hole And the push bar (144) is not rotated because the lower end of the tightening bolt (143) is idly rotated relative to the push bar (144).

delete delete

Images