KR101694658B1 - Hydrochloric acid liquid spill detection system - Google Patents

Abstract

The present invention relates to a system to sense leakage of a hydrochloric acid solution. The system to sense the leakage of the hydrochloric acid solution comprises: a housing; a cartridge; a hydrogen gas amplifying mesh net; a scroll device; and a hydrogen gas detector. The present invention is able to prevent leakage of hydrochloric acid solution in advance.

Description

[0001] Hydrochloric acid liquid spill detection system [0002]

The present invention relates to a system for detecting a hazardous chemical material leakage, and more particularly, to a system for detecting a liquid hydrochloric acid leakage accident in advance of detecting an initial hydrochloric acid leakage accident among harmful chemicals.

Generally, hydrochloric acid is a corrosive colorless strong acid produced by dissolving gaseous hydrogen chloride in water and is an aqueous solution of hydrogen chloride (HCl). Since it is a strong acid, dilute hydrochloric acid, which is diluted with water, is widely used.

Since the industrial revolution, hydrochloric acid has started to be used in various processes. It is also used in large-scale processes such as the production of organic compounds such as PVC, PVC and polyurethane, as well as in the manufacture of gelatin and other food additives and leather processing.

Hydrochloric acid is a colorless, highly irritant gas that is heavier than air and has good water solubility. The concentrated hydrochloric acid is an aqueous solution having a specific gravity of 1.18 and a hydrogen chloride gas of about 35%. The boiling point of hydrochloric acid, which is 20% hydrogen chloride, is 110 ° C. When it boils, it is concentrated hydrochloric acid. If diluted, it is diluted hydrochloric acid. Pure hydrochloric acid is a colorless liquid, but industrial hydrochloric acid contains yellow iron (II) chloride. When you open the bottle cap containing concentrated hydrochloric acid, white smoke is produced. This is because the hydrogen chloride dissolved in the water flies to the gas, and then it meets the water vapor in the air to make a small droplet of hydrochloric acid. Hydrochloric acid is a typical strong acid and widely used in industry. It reacts with metals such as iron, zinc and aluminum to generate hydrogen and make chloride. For example, aluminum chloride may be produced by reacting with aluminum, or by reacting with iron to form iron chloride. Hydrochloric acid is also an important industrial raw material used to make chemical seasonings and dyes. And stomach acid from the upper part of our body is a kind of hydrochloric acid which helps the digestion of food.

As such, hydrochloric acid is strongly acidic and corrosive and needs to be handled with care. Hydrochloric acid is a substance that can be obtained by dissolving hydrogen chloride (HCl) in water and is usually colorless. The hydrogen chloride dissolved in water is divided into hydrogen ion (H +) and chloride ion (Cl-). The more hydrogen ions are present in the water, the stronger the acidity and the greater the toxicity.

Hydrochloric acid is a volatile acid that dissolves in water and dissolves well in water because of its strong polarity, but easily escapes because of its strong polarity. Therefore, hydrochloric acid fumes remarkably in humid air and gives off a stimulant smell.

When hydrochloric acid leaks (200 tons of pollutant spills in January 2013, a polysilicon plant in Changzhou city, Gyeongsangbuk-do), it quickly reacts with moisture in the air or quickly reacts with snow on the ground. As a result, hydrochloric acid turns into hydrogen chloride gas, which flows into the air and does not flow into the ground. Also, hydrogen chloride, which has turned into gas, does not spread far away because its molecular weight is heavy compared to hydrofluoric acid. As a result of the Foshan leak (September 2012, Gumi City, Gyeongsangbuk-do) When hydrochloric acid leaks, the liquid hydrochloric acid can be blocked in the barrier wall to reduce the outflow to the outside when the plant's fire wall is installed. However, hydrochloric acid is a Class III hazardous substance, and it can cause headache or coughing and skin burns if it touches the human body. In addition, if a large amount of high concentration of hydrogen chloride gas is inhaled, side effects such as damage of respiratory mucous membrane may occur. Therefore, the Environment Agency recommends that the entrance should not be restricted within 1.5 km of the factory where an accident occurred.

Hazardous substance solutions include strong acid solutions (hydrofluoric acid, hydrochloric acid, nitric acid, phosphoric acid), strong alkaline solutions (caustic soda, potassium hydroxide, etc.), various toxic organic solvents and petrochemical fuel systems. Normally, these chemicals leak from the outdoor storage facilities and the pipelines, and it is difficult to detect the leakage of harmful chemicals due to snow, rain and various dusts outdoors. In the meantime, leak detection sensors have been supplied by French T, US R and A, and Japan O.

On the other hand, inkjet printing, screen printing, spin coating, etc. have been developed by impregnating the sensor precursor to the sensor precursor in Korea. In recent years, using a new sensor material and conductive ink, We are developing a chlorine gas sensor to alert us.

However, most of the hydrochloric acid sensors that have been developed so far do not directly detect hydrogen generated from hydrochloric acid, but detect most chlorine components. Also, when the paint is applied to paint, If you do not confirm it, you can not confirm the leakage of hydrochloric acid.

Therefore, in order to solve the above-mentioned problem, the present invention proposes a completely novel technique for amplifying hydrogen gas at a low concentration in the initial leakage of hydrochloric acid by using a specially designed mesh net which is more prone to ionization than hydrogen, thereby facilitating detection.

Accordingly, it is an object of the present invention to overcome the above-mentioned problems, and it is an object of the present invention to provide a hydrogen network for hydrogen gas amplification of an aluminum or zinc material having a higher ionization tendency than hydrogen, The present invention provides a system for detecting a liquid acid leakage phenomenon in a hydrogen gas sensor in which an inexpensive hydrogen gas sensor is sufficiently operable even in a low concentration hydrogen gas state in the event of an initial leakage of hydrochloric acid by amplifying the hydrogen gas to a detectable concentration.

According to an aspect of the present invention, there is provided a system for detecting a liquid acid leakage in a hydrochloric acid, the system having a reversed shape of a cup and having a predetermined size, A housing 100 made of a plastic resistant to acid so as to be able to withstand; A plurality of holes (210) are formed in the lower part of the housing so as to collect the liquid of hydrochloric acid leaked from the piping pipe, and the upper part of the plurality of holes is folded into two folds A cartridge (200) having an absorbing pad (Pad) (220) attached thereto; Concentration hydrogen gas produced by a chemical reaction in contact with the leaked hydrochloric acid liquid is amplified to a constant concentration in the absorption pad of the cartridge to ionize the hydrogen gas sensor to allow the sensor of the hydrogen gas detector to detect the hydrogen gas A mesh network 300 for amplifying hydrogen gas, which is woven with weft yarn by applying nanotechnology to aluminum (Al) or zinc (Zn) material having high tendency; The hydrogen gas-amplifying mesh net is wound on the rotating means 410 by a roll type so as to pass through the first frame 420 of the mesh net to the inside of the absorption pad folded into two layers of the cartridge, In the process of amplifying the hydrogen gas by the chemical reaction during the leakage of the hydrochloric acid liquid, the first frame 420 of the oxidized hydrogen gas-amplifying mesh network is advanced to move the second frame 430 to the nth frame 440, A scroll device 400 capable of rolling up to a state; And a hydrogen gas detector 500 having a sensor 510 on which palladium (Pd) is deposited to detect the concentration of hydrogen gas amplified in the hydrogen gas amplifying mesh network and convert it to an electrical signal, , And the hydrogen gas detector is provided with a telecommunication transmitter / receiver 530 for short range communication to integrate with the housing and collects hydrochloric acid liquid leakage accident information through the transmitter / receiver to manage the hydrochloric acid storage tank, And a control center (600) for issuing an alarm.

According to another embodiment of the present invention, the hydrogen gas generated by causing a chemical reaction between the mesh network 300 for amplifying a hydrogen gas woven in a weft-woven weaving process and the leaked hydrochloric acid liquid by applying the aluminum (Al) (Aq) - > AlCl ₃ (aq) + 3 / 2H ₂ ↑ (g).

According to another embodiment of the present invention, the hydrogen gas produced by causing a chemical reaction between the mesh net 300 for hydrogen gas amplification woven with the weft slope and the leaked hydrochloric acid liquid by applying the zinc (Zn) The chemical reaction formula for amplifying to a constant concentration is characterized by Zn (s) + 2HCl (aq) ^- > Zn ^{2 +} + 2Cl ^- + H ₂ .

According to another embodiment of the present invention, the control center 600 can monitor the site through the CCTV, notify the manager of the hydrochloric acid liquid storage tank, the fire department, and the public office with the wire / wireless transceiver 610, The emergency situation information is automatically notified to the nearby residents along with the characters.

According to another embodiment of the present invention, the hydrochloric acid liquid leakage accident detection system except for the control center 600 includes a discharge inner wall floor 800 for preventing accidents around the hydrochloric acid liquid storage tank 700 or hydrochloric liquid leakage, Or a plurality of piping pipeline joints 900 are provided around the pipe piping joint 900 capable of leaking in the field.

The hydrochloric acid liquid leakage accident detection system of the present invention has the following effects.

(1) The initial hydrogen gas was amplified to a certain concentration through a mesh network for hydrogen gas amplification installed in a safe container having a certain standard so that the sensor of the hydrogen gas detector could operate sufficiently even at a low hydrogen gas concentration of 2 to 4% The detection of hydrogen gas is immediately possible even in the event of an initial leakage of hydrochloric acid liquid.

(2) Even when a low-concentration hydrogen gas is generated, it can be detected with a low-cost hydrogen gas detector or a hydrogen gas sensor, thereby remarkably reducing the installation cost of the hydrogen gas detector and achieving a unique effect .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the installation of a hydrochloric acid liquid storage tank, a piping pipeline joint, a barrier wall, and a hydrogen gas detector for a hydrochloric acid liquid leakage accident detection system according to a preferred embodiment of the present invention;
FIG. 2 is a block diagram of a whole technical block diagram of a system for detecting a liquid acid leakage phenomenon according to a preferred embodiment of the present invention.
3 is a diagram specifically illustrating a detection system excluding a control center for a liquid acid leak detection system according to a preferred embodiment of the present invention;
4 is a view illustrating a mesh network and a scroll device for hydrogen gas amplification for a hydrochloric acid liquid leakage accident detection system according to a preferred embodiment of the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, in adding reference numerals to the constituent elements of the drawings, it is to be noted that the same constituent elements are denoted by the same reference symbols as possible even if they are displayed on different drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

1 to 4, a key technical solution to the hydrochloric acid liquid leakage accident detection system according to a preferred embodiment of the present invention includes a housing 100, a cartridge 200, A scroll device 400, a hydrogen gas detector 500 and a control center 600. These components are organically coupled to each other to form a 2 to 4% In order to enable the sensor to operate sufficiently even at a low hydrogen gas concentration, it is possible to detect early in the event of an initial hydrochloric acid leak by amplifying the amount of hydrogen gas generated through a mesh network for hydrogen gas amplification installed in a safe container having a certain standard This is a unique feature that prevents large-scale leakage accidents in advance.

The housing 100 is made of plastic or stainless steel resistant to acid, and is a means for detaching or attaching a device for collecting hydrogen gas in a container having a certain standard and for amplifying the collected hydrogen gas in the event of leakage of hydrochloric acid liquid The housing 100 is formed to have a reversed shape of the cup and to be manufactured to a certain standard, and to withstand the capture of hydrogen gas at a concentration of 2 to 4% or more.

Here, in order to amplify the hydrogen gas collected through the housing 100 and transmit the detected data to the control center 600 by the sensor of the hydrogen gas detector 500, a hydrochloric liquid leak according to the preferred embodiment of the present invention The cartridge 200 included in the accident detection system and the mesh network 300 for hydrogen gas amplification, the scroll device 400 and the sensor 510 of the hydrogen gas detector 500 are built in or installed outside the housing 100 And is integrated with the housing. The installation position of the housing 100 according to the embodiment of the present invention may include a floor wall 800 inside the discharge wall for preventing accidents when the hydrochloric acid liquid storage tank 700 is leaked or liquid hydrochloric liquid is leaked, And is installed around pipeline joint 900.

Therefore, the reason why the housing 100 according to the embodiment of the present invention is formed in the inverted shape of the cup is to easily absorb the chlorine gas generated when the leaked hydrochloric acid liquid combines with moisture in the atmosphere, The hydrogen gas generated through the chemical reaction with the mesh network 300 for hydrogen gas amplification in which aluminum (Al) or zinc (Zn) material having a tendency to ionize gas more than hydrogen is woven by applying a nano technology is safely amplified It is for collecting. At this time, the amplified hydrogen gas is detected by the sensor of the hydrogen gas detector to sufficiently detect the hydrogen gas. And to protect hydrogen sensors and other accessories.

The cartridge 200 is a means for incorporating a mesh network 300 for amplifying hydrogen gas for amplifying the hydrogen gas generated in the absorbed hydrochloric acid liquid by easily absorbing and contacting the leaked hydrochloric acid liquid, A plurality of holes (210) are formed in the lower part of the housing (100) so as to be detachable and capable of collecting the hydrochloric acid liquid leaked from the pipe pipeline joint part and the like. An absorbing pad (Pad) 220 folded in two layers is attached to the upper portion of the plurality of holes 210 to absorb the leaked hydrochloric acid liquid.

The two-folded absorbent pad 220 should be capable of quickly absorbing the liquid hydrochloride leaked from the bottom of the barrier wall and discharging the hydrogen gas. Neither neutralization nor deodorization of the hydrochloric acid liquid is required. The reason for this is that the hydrochloric acid liquid absorbed into the two-folded absorbent pad 220 is absorbed by the mesh network 300 for amplifying the hydrogen gas by weaving an aluminum (Al) or zinc (Zn) And it is necessary to amplify the concentration of the hydrogen gas in the leached hydrochloric acid liquid so that the sensor 510 of the hydrogen gas detector 500 can sufficiently detect the chemical reaction. Various hydrogen gas detectors or hydrogen gas sensor low price products have been introduced in the market, but due to the limitation of the concentration of the hydrogen gas in consideration of the explosibility, the sensing function tends to be inferior, so that the function of the actual hydrogen gas sensor is not shown. Hydrogen gas detectors or hydrogen gas sensors that function as sensors at low detection concentrations are mostly imported and expensive.

Therefore, according to the present invention, the hydrogen gas generated when the leaking hydrochloric acid liquid is combined with the moisture in the atmosphere is collected into the housing 100 even if the hydrogen gas detector or the hydrogen gas sensor is inexpensive, 300), and is capable of sensing hydrogen gas stably because it has a unique designing means for amplifying the hydrogen gas through a chemical reaction.

The mesh 300 for hydrogen gas amplification is a means for amplifying a hydrogen gas generated by a chemical reaction with a leaked hydrochloric acid liquid to a predetermined concentration, (Not shown). That is, the mesh network 300 for hydrogen gas amplification installed in the absorption pad 220 of the cartridge 200 reacts with the initially leaked hydrochloric acid liquid in a chemical reaction to generate a concentration of hydrogen gas In order to easily detect hydrogen by the sensor 510 of the hydrogen gas detector 500 by amplifying the hydrogen gas at a predetermined concentration, aluminum (Al) or zinc (Zn) material having a tendency to ionize more than hydrogen is applied to the weft slope Weave.

In addition, by applying the nano technology to the aluminum material according to the embodiment of the present invention, the hydrogen gas produced by causing a chemical reaction between the mesh net 300 for hydrogen gas amplification woven with the weft woven fabric and the leaked hydrochloric acid liquid, The chemical reaction formula amplified by concentration is shown in (1).

Al (s) + 3HCl (aq ) → AlCl 3 (aq) + 3 / 2H 2 ↑ (g) ................ (1)

As shown in the above equation (1), when aluminum and hydrochloric acid liquid (hydrogen chloride) cause a chemical reaction, aluminum chloride and hydrogen gas are generated to amplify hydrogen gas in the initial hydrochloric acid liquid.

Further, by applying the nanotechnology to the zinc (Zn) material according to an embodiment of the present invention, the hydrogen gas generated by causing a chemical reaction between the mesh net 300 for hydrogen gas amplification woven with the weft- The chemical reaction that amplifies by concentration is shown in (2).

Zn (s) + 2HCl (aq ) → Zn 2 + + 2Cl - + H 2 ......................(2)

As shown in the above equation (2), when zinc and hydrochloric acid (hydrogen chloride) chemically react, zinc, hydrochloric acid, and hydrogen gas are generated to amplify hydrogen gas in the initial hydrochloric acid liquid.

Therefore, in the embodiment of the present invention, nanotechnology is applied to the initial hydrochloric acid liquid and aluminum (Al) or zinc (Zn) material leaking from the storage tank or pipe pipeline joint by the above equations (1) By amplifying the hydrogen gas produced by the chemical reaction with the mesh net 300 for weaving the weft-woven hydrogen gas amplification to a constant concentration, the hydrogen gas can be sufficiently detected even at a low-cost hydrogen gas sensor, This is a unique feature that prevents large-scale leakage accidents in advance.

The scroll device 400 is a means for winding a roll type hydrogen gas amplifying mesh net 300. The mesh device 300 for the hydrogen gas amplification is connected to the outer diameter of the housing 100, And the first frame 420 of the mesh net is passed through the absorbing pad folded into two folds of the cartridge. In the first frame, the first frame 420 of the mesh network for hydrogen gas amplification is oxidized in the process of amplifying the initial hydrogen gas generated by the chemical reaction at a certain concentration during the leakage of the hydrochloric acid liquid. After the end of the leakage accident, the oxidized first frame is advanced and rolled manually using the rotating means 410 from the second frame 430 to the nth frame 440.

Therefore, the reason why the roll-type hydrogen gas-amplifying mesh net 300 is wound around the scroll device 400 according to the embodiment of the present invention in a plurality of frame units is as follows. Type hydrogen gas amplifying mesh net 300 which can be oxidized in a chemical reaction process of amplifying the initial hydrogen gas to a predetermined concentration is introduced into the absorption pad 220 folded in two layers of the cartridge 200 The hydrogen gas amplifying means can be prevented from being damaged and semi-permanently usable by shifting in frame units.

The hydrogen gas detector 500 is a means for detecting the hydrogen gas collected in the housing 100 and transmitting the hydrogen gas to the control center. The A / D converter 500 converts the analog data detected by the sensor 510 into a digital signal, And a wireless transmitter 530 for transmitting a signal of the A / D converter to the control center 600.

The sensor 510 of the hydrogen gas detector 500 is installed at the top of the housing 100 and detects the concentration of the hydrogen gas amplified in the hydrogen gas amplifying mesh net 300 and converts it into an electric signal Palladium (Pd) is deposited with excellent electrical conductivity and large surface area.

In other words, the hydrogen gas detector 500 according to the embodiment of the present invention may purchase a commercially available product at low cost, and the sensor 510 of the hydrogen gas detector 500 may be connected to the housing 100 or the like. At this time, when the hydrogen gas amplified through the mesh network 300 for hydrogen gas amplification is collected in the housing, the palladium Pd deposited on the sensor 510 has a larger surface area and an excellent electrical conductivity, It is possible to easily detect the captured hydrogen gas even when the hydrogen gas detector 500 of FIG.

The control center 600 is a means for taking charge of a system in case of a hydrochloric acid liquid leakage accident due to a crack generated in a hydrochloric acid liquid storage tank or piping connection part and is connected to a hydrogen radio transmitter (530) are integrally formed with the housing (100). The control center 600 collects information on leakage of hydrochloric acid liquid through the radio transmitter / receiver 530 to the data processed by the hydrogen gas detector 500. In case of a leakage accident, Wireless transmitter 530 and is integrated with the housing and collects hydrochloric acid liquid leakage accident information through the wired / wireless transmitter 530 to manage the hydrochloric acid storage tank and alerts when leakage occurs.

In addition, the control center 600 according to the embodiment of the present invention can monitor the site through the CCTV and notify the manager of the hydrochloric acid liquid storage tank, the fire department, and the public office with the wire / wireless transceiver 610, Emergency information is automatically notified to nearby residents along with the text.

Therefore, the control center 600 according to the embodiment of the present invention is configured such that when hydrogen chloride is leaked and is bound to moisture in the atmosphere, hydrogen is generated, and when the concentration of hydrogen generated at this time is more than 2 to 4% , Because it has a property of spontaneous ignition or explosion when it is combined with oxygen in the atmosphere, safety measures against hydrogen leakage during production, storage and use of hydrogen are essential.

In the embodiment of the present invention, the hydrochloric acid liquid leakage accident detection system except for the control center 600 may include a drainage wall inner floor 800 for preventing accidents when the hydrochloric acid liquid storage tank 700 is leaked, A plurality of piping pipeline joints 900 may be installed in the vicinity of the piping joint 900 where the piping pipeline can be leaked.

Here, the installation of more than one hydrochloric acid liquid leakage accident detection system except for the control center 600 can take into consideration the quantity of storage tank installed, piping pipeline joint, and the area of the barrier wall.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments of the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: Housing 200: Cartridge
210: a plurality of holes,
220: Double-folded absorbent pad (Pad)
300: mesh network for amplifying hydrogen gas 400: scroll device
410: rotating means 420: first frame
430: second frame 440: nth frame
500: hydrogen gas detector 510: sensor
520: A / D converter 530: wired / wireless transmitter
600: Control center 610: wired / wireless transceiver
700: Storage tank 800: Firewall inner bottom
900: Piping pipeline joint

Claims (5)

A system for detecting a liquid leak in a hydrochloric acid,
The system comprises a housing (100) having an inverted shape of the cup and having a predetermined size, and made of a plastic resistant to acid so as to withstand the capture of hydrogen gas at a concentration of 2 to 4% or more;
A plurality of holes (210) are formed in the lower part of the housing so as to collect the liquid of hydrochloric acid leaked from the piping pipe, and the upper part of the plurality of holes is folded into two folds A cartridge (200) having an absorbing pad (Pad) (220) attached thereto;
Concentration hydrogen gas produced by a chemical reaction in contact with the leaked hydrochloric acid liquid is amplified to a constant concentration in the absorption pad of the cartridge to ionize the hydrogen gas sensor to allow the sensor of the hydrogen gas detector to detect the hydrogen gas A mesh network 300 for hydrogen gas amplification in which aluminum (Al) or zinc (Zn) material having a strong tendency is weighed;
The hydrogen gas-amplifying mesh net is wound on the rotating means 410 by a roll type so as to pass through the first frame 420 of the mesh net to the inside of the absorption pad folded into two layers of the cartridge, In the process of amplifying the hydrogen gas by the chemical reaction during the leakage of the hydrochloric acid liquid, the first frame 420 of the oxidized hydrogen gas-amplifying mesh network is advanced to move the second frame 430 to the nth frame 440, A scroll device 400 capable of rolling up to a state;
And a hydrogen gas detector 500 having a sensor 510 on which palladium (Pd) is deposited to detect the concentration of hydrogen gas amplified in the hydrogen gas amplifying mesh network and convert it to an electrical signal, ,
In addition, the hydrogen gas detector is provided with a telecommunication transmitter / receiver 530 for short-distance communication, and is integrated with the housing, and collects hydrochloric acid liquid leakage accident information through the transmitter / receiver to manage a hydrochloric acid storage tank, And a control center (600) for issuing a hydrochloric acid liquid.
The method according to claim 1,
The chemical reaction formula for amplifying the generated hydrogen gas at a constant concentration by causing a chemical reaction between the mesh net 300 for hydrogen gas amplification woven with the aluminum (Al) material and the leaked hydrochloric acid liquid,
Al (s) + 3HCl (aq ) → AlCl 3 (aq) + 3 / 2H 2 ↑ (g) the hydrochloric acid liquid leakage accident detection system, characterized in that.
The method according to claim 1,
The chemical reaction formula for amplifying the generated hydrogen gas at a constant concentration by causing a chemical reaction between the mesh network 300 for amplifying the hydrogen gas and the leaked hydrochloric acid liquid is formed by weaving the zinc (Zn)
Zn (s) + 2HCl (aq ) → Zn 2+ + 2Cl - + H 2 in hydrochloric acid liquid leakage accident detection system, characterized in that.
The method according to claim 1,
The control center 600 can monitor the site through the CCTV and notify the manager of the hydrochloric acid liquid storage tank, the fire department, and the public office with the wire / wireless transceiver 610, and the emergency information Characterized in that the system is automatically alarmed with a character.
The method according to claim 1,
The system may be installed in one or more of a plurality of locations around the hydrochloric acid liquid storage tank 700 or around the inner bottom wall 800 for prevention of accidental leakage of hydrochloric acid liquid or pipeline piping joint 900 capable of leaking in the field Features a hydrochloric acid liquid leak accident detection system.

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