KR20010037117A - A method used for preventing a leakage of ammonia gas and its device - Google Patents

Abstract

PURPOSE: The method for preventing ammonia gas leak and apparatus thereof are provided to reduce generation rate of wrong operation by dually setting up a sensor in forms of confirming a region leaked and simultaneously sensing changes of color and pH. CONSTITUTION: A cap(12) is composed of a pH electrode and an insulating material. A length direction penetration hole is formed on a central axis in a protection frame(13). A combining unit is formed in a cover(14). A plurality of support frames are formed in an assembly nut(15). A gas detector(10) is composed of one or more gauze and a detection vessel(16). A control valve(21) controls a current of ammonia gas. An ammonia field(20) is equipped with an inflow and a discharge pipe(21a,21b). A counteractive storage tank(31) stores disaster prevention water. A sprinkler(30) is equipped with a discharge gun(31a), the first and the second valve(32a, 32b) and a disaster prevention pump(33). A control unit(40) is equipped with a red flashing light(41), an abnormal lamp(42a), a normal lamp(42b), an alarm(43), an automatic/manual switch(44), a power switch(45) and a pH controller(46).

Description

A method used for preventing a leakage of ammonia gas and its device

The present invention is to quickly detect the leaked gas in order to solve the problem that has a significant impact on the lives or property of the gas leak in the facility of manufacturing, storing, using ammonia gas, and minimize the damage by the immediate action according to the detection An ammonia gas leakage prevention method and apparatus therefor.

In general, a semiconductor sensor detection method is used to detect whether gas is leaked. When a gas to be detected is adsorbed on the sensor, the electrical conductivity of the semiconductor is changed, and the detection method is applied by applying a change in the composite resistance between the platinum wire coil and the semiconductor. It is becoming.

1 is a flowchart of a gas leakage warning apparatus according to the related art. The receiver 100 includes a power supply, a gas detector, a gas detector, a signal processor, and an alarm, and a controller 110 including a buzzer, a warning light, and a watering device. The alarm device configured as described above recovers when an ammonia gas is detected, an alarm sounds at the same time as the watering device is activated.

2 is a structure of a gas leakage warning apparatus according to the related art. It consists of a detection rod 220 and the display unit 230 is provided with a rectangular body 200 and the detection sensor 210. When the leaked ammonia gas is adsorbed to the detection sensor 210, the electrical conductivity of the semiconductor provided inside the detection rod 220 is changed, and the value of the composite resistance between the platinum wire coil and the semiconductor is changed to a reference value (as shown in the display unit 230). The value rises above 25 ppm).

Such a gas leak alarm device detects flammable or toxic gas leaks, indicates the concentration, and simultaneously sounds an alarm and neutralizes the leak.

Gas leaks from the storage system of ammonia gas can cause loss of life and property. In particular, ammonia gas is lighter than air, so if it leaks, its spreading range is wide, flammable and toxic, and it burns or explodes in air and reacts violently with strong acids such as chlorine to explode. This causes death within a certain time (10 minutes), depending on the concentration of inhalation of ammonia gas in the atmosphere (above 500PPM). Thus, to prevent the enormous damage caused by the leakage of gas, a gas leakage alarm system was installed, and the irrational part of the gas leakage alarm system was improved and supplemented by itself.

The current gas leakage alarm device is a semiconductor sensor sensing method. When the gas to be detected is adsorbed on the sensing sensor, the electrical conductivity of the semiconductor provided inside the detection rod is changed, and the synthetic resistance between the platinum wire coil and the semiconductor is applied as an electrical signal. It is an alarm device to detect. This alarm device has a low sensitivity of the sensor after a certain period of time, high cost expenditure due to maintenance, malfunction due to mixed gas and moisture in the atmosphere, and gas detection function is impossible during power outage. When leaking minute amount, there was a problem that it was impossible to quickly check and take measures due to the spread of peripheral facilities.

The present invention is to solve the above-mentioned problems, the improvement point is installed around the equipment that is expected to cause a risk of gas leakage by using a reagent to easily check the leakage site and to detect the change in color and pH with a sensor at the same time It is possible to minimize the incidence of malfunction by installing the detector in a dual way, and the visual detection method by color change can be used even in case of power failure.

The present invention provides a disaster prevention method in which the leaked ammonia gas reacts with the phenolphthalein solution so that the sensor detects the changed color and pH, and by spraying the disaster prevention solution by neutralizing the ammonia gas.

Examples of the disaster prevention solution used in the present invention include alcohols and ethers. Particularly suitable among these is water.

This can be seen by examining the reactivity between ammonia and water as follows.

The molecular formula of ammonia is NH ₃ , molecular weight is 17, specific gravity is 0.66.Soluble substances include water, alcohol and ether. Ammonia gas is stable at room temperature by being liquid at 33.5 ℃, but decomposes into each element (N, H) at high temperature. Dissolve at a rate of 700 times the volume of water at room temperature.

The dissolved ammonia water shows a strong alkaline 89.9g (0 ℃), 52g ( 20 ℃), 7.4g (96 ℃) dissolved in the water 100㎖. Ammonia easily dissolve in water, is the ammonium hydroxide (NH ₄ OH) . That is, it becomes ammonia water.

NH3 + H2O = NH4OH

Therefore, water is the best for mass neutralization of ammonia gas.

In another aspect, the present invention is composed of a pH electrode and an insulating material connected to the power source and extend in the longitudinal direction, the inner space is formed, one side is open and the cover is open to the one side open to the central axis in the longitudinal direction A through hole is formed and a through hole is formed at one side, and a guard is formed at a position corresponding to the guard groove having a plurality of fastening guide grooves and the guide grooves formed on the guard, the fastening portion is formed at the central axis, and the stepped end is formed. One or more gauze and the gauze fastened to the cover and the fastening portion formed on the cover, the through hole is formed in the central axis, a plurality of supports are formed at the lower end, and the assembling nut and the end of which the protective member is provided as the central axis in the phenolphthalein solution. And an ammonia gas detector comprising a detection vessel containing a phenolphthalein solution,

An ammonia field equipped with an inlet pipe and an outlet pipe introduced from an intermittent valve for controlling the flow of ammonia gas and a storage tank of ammonia gas,

A neutralization reservoir containing the disaster prevention water, at least one radiation gun radiating the disaster prevention water into the ammonia field, and primary and secondary valves controlling the inflow and discharge of the disaster prevention water;

A watering device equipped with a disaster prevention pump circulating the disaster prevention water;

It provides an ammonia gas disaster prevention device comprising a control lamp equipped with a warning light, an abnormal lamp, a normal lamp, an alarm, an automatic / manual switch, a power switch, and a pH controller.

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

1 is a flow chart of a conventional gas leakage alarm device

Figure 2 is a perspective view of the alarm provided in the conventional gas leak alarm device

3 is a block diagram of the ammonia gas disaster prevention apparatus according to the present invention

4 is an exploded perspective view of a gas detector according to the present invention;

5 is a perspective view of the ammonia gas disaster prevention device equipped with a gas detector according to the present invention

6 is a flowchart showing that the ammonia gas disaster prevention apparatus according to the present invention is operated.

<Explanation of symbols for main parts of drawing>

1: Disaster prevention device 10: Gas detector

11 pH electrode 12 cover

13: protector 13a: through hole

13b: through hole 13c: guide groove

14 cover 14a fastening portion

14b: step 15: assembly nut

15a: Support 15b: Protective member

16: detection vessel 17: gauze

20: ammonia field 21: intermittent valve

21a: inlet pipe 21b: outlet pipe

30: watering device 31: reservoir

31a: Spinning gun 32a: primary valve

32b: secondary valve 33: disaster prevention pump

34a: No. 1 radiation gun 34b: No. 2 radiation gun

34c: No. 3 radiation gun 34d: No. 5 radiation gun

34e: No. 6 radiation gun 34f: No. 7 radiation gun

40: control unit 41: warning lights

42a: Abnormal lamp 42b: Normal lamp

43: alarm 44: automatic / manual switch

45: power switch 46: pH controller

Since ammonia is weakly alkaline due to its dissolution in water, the leaked gas reacts with the gauze containing phenolphthalein, and the color of phenolphthalein in the container turns red and the reagent has a pH of 7.1 to 7.1 by ammonia gas at pH 7.0. It is changed by more than 8.0 range and it becomes the operation by the detection of sensor. When the detector is activated, the warning light and alarm sound will sound and the water spray valve will open after the first set delay time (10 seconds) to notify the worker, and after the second delay time (S / V opening time: 11 seconds), By operating the sprinkler to neutralize the leaked gas.

3 is a block diagram of the ammonia gas disaster prevention apparatus according to the present invention. According to this, the present invention is largely dualized by the naked eye which can be operated in a state where power is applied and can be sensed in a state where power is not applied. A gas detector 10 capable of changing the numerical value and visual detection by the pH electrode 11 is provided, and the control unit 40 is provided with a buzzer, a warning lamp, and a watering device.

4 is an exploded perspective view of a gas detector according to the present invention. Accordingly, the present invention is composed of a pH electrode 11 and an insulating material, which are connected to a power source and extend in a longitudinal direction, and have a space formed therein and open one side of the cover 12 and a longitudinal through hole 13a in the central axis. ) Is formed, a through hole (13b) is formed on one side, and the cover (14) formed with a guard (13) having a guide groove (13c) and a fastening portion (14a) is formed at the central axis and the end (14b) is formed at the end. The guide groove 13c formed as the bottom surface of the guard 13 is fastened in a position corresponding to the protrusion (not shown) formed on the cover 14, and a plurality of supports 15a are formed and the protective member 15b is formed. The assembled nut 15 and the end are composed of at least one gauze 17 contained in a phenolphthalein solution and a detection vessel 16 containing the gauze and phenolphthalein solution.

Specifically, the attached ammonia gas disaster prevention device equipped with a gas detector according to the present invention is reduced to a partial facility instead of the entire building, and as shown in FIG. 5, a pH electrode connected to a power source and extending in a longitudinal direction. The cover 12 is formed of an insulating material, and a space is formed inward, and one side is opened, and a longitudinal through hole is formed at the central axis, and a guard 13 is formed at the central axis and a fastening part is formed at the central axis. Formed cover 14 and one or more gauze and the gauze and phenolphthalein solution is fastened to the cover 14, a plurality of support (15a) is formed, the assembling nut 15 and the end is contained in a phenolphthalein solution The gas detector (10) consisting of the detection vessel (16) containing this, an intermittent valve (21) for controlling the flow of ammonia gas, and an inflow pipe flowing from the storage tank ( 21a) and the ammonia field 20 provided with the discharge pipe 21b, the neutralizing material storage container 31 containing the disaster prevention water, and the radiation gun 31a for radiating the disaster prevention water into the ammonia field and the inflow and discharge of the disaster prevention water. A watering device 30 having a primary and secondary valves 32a and 32b for controlling and a disaster prevention pump 33 for circulating the disaster prevention water, a warning light 41, an abnormal lamp 42a, and a normal lamp 42b. And a disaster prevention apparatus 1 having a control unit 40 provided with an alarm 43, an automatic / manual switch 44, a power switch 45, and a pH controller 46.

Looking at the implementation process of the present invention with reference to the accompanying drawings,

6 is a flowchart showing that the ammonia gas disaster prevention apparatus according to the present invention is operated. According to this, the disaster prevention pump 33 is divided into automatic and manual operation so that the sprinkling device 30 is operated by operating the pump by the detection and individual operation of the gas detector. The sprinkling system 30 is divided into No. 1 34a, No. 2 34b, No. 3 34c, No. 5 34d, No. 6 34e and No. 7 34f, respectively. Among them, No. 1 (34a) and No. 2 (34b) are installed in an ammonia field, No. 3 (34c) is installed in a filling workshop, and No. 5 (34d) is a fire hydrant, No. 6 (34e) and 7 (34f). ) Is installed locally in the ammonia field in the front and rear, respectively.

The ammonia gas disaster prevention apparatus according to the present invention was compared with the gas leak warning apparatus which was used in the past as follows.

The chamber A is separated from room A and room B to form an ammonia field in a confined space. In the room A, the disaster prevention apparatus of the present invention is reduced and installed as shown in FIG. 5, and in the room B, a conventional gas leakage alarm device is installed in the existing method (ground 3.8 m). When the ammonia gas leaks into the A and B rooms, the alarm sounds at the place where the test source is located within the designated time (10 seconds) and simultaneously recovers the operating state of the ammonia gas disaster prevention device of the present invention and the conventional gas leakage alarm device. Was repeated a total of 20 times.

First, the present inventors of the disaster prevention apparatus is 18 times the alarm sounded at a specified time (10 seconds) out of a total of 20 times, two times the alarm sounded because the time is exceeded. In addition, the present inventor's disaster prevention device changes the color of the gauze by chemical reaction of ammonia gas and phenolphthalein solution (0.5%) before the designated time (10 seconds) and is detected by the naked eye and recovered by local action by each radiation gun. It was possible to shorten the time required.

On the contrary, the conventional gas leakage alarm device sounds an alarm sound at a specified time (10 seconds) only 8 times out of a total of 20 times, and 10 times when the alarm is timed out.

On the other hand, when the power was cut under the same conditions as described above and the experiment was continued, the conventional gas leak alarm device did not operate at all, and thus the experiment was not possible, and the disaster prevention apparatus of the present invention was ammonia gas and phenolphthalein solution even when the power was not applied. The gauze was discolored by this chemical reaction, and a total of 20 experiments were conducted.

Disaster Prevention Test

After forcibly leaking ammonia gas into the confined space, it was tested whether alcohol, ether, and water were neutralized within the designated time (3 minutes) using the disaster prevention solution.

1. When alcohol was used as a disaster prevention solution, two out of five disaster prevention occurred within the designated time.

2. When ether was used as a disaster prevention solution, three out of five disaster prevention occurred within the designated time.

3. When water was used as a disaster prevention solution, 5 out of 5 disaster prevention occurred within the designated time.

The present invention configured as described above is capable of quickly coping with gas leakage, thereby minimizing damage to human life and property loss, and is cheaper than conventional installations, and easy to check for leaks by local installation. It can check whether it can be used even in case of power failure.

Claims (4)

Ammonia gas leakage prevention method characterized in that the sensor detects the changed color and pH by reacting the leaked ammonia gas with the phenolphthalein solution and neutralizes the ammonia gas by spraying the disaster prevention solution. The method of claim 1, wherein the disaster prevention solution is water. The method of claim 1 wherein the changed pH of the phenolphthalein solution is between 7.1 and 8.0. Consists of a pH electrode and an insulating material extending in the longitudinal direction and connected to the power source, a space is formed inward, one side is opened, and one side is opened to the cover, and a longitudinal through hole is formed at a central axis, and a hole is formed at one side. Is formed and a protrusion having a plurality of guide grooves for fastening and protrusions formed at positions corresponding to the guide grooves formed in the protector are coupled, and a fastening portion is formed at a central axis, and a cover formed with a stepped end is fastened to the cover. Through-holes are formed in the central axis, and a plurality of supports are formed at the lower end, and the assembling nut having the protective member as the central axis and one or more gauze in which the end is contained in the phenolphthalein solution, and the detection vessel containing the gauze and phenolphthalein solution Ammonia gas detector, including; An ammonia field equipped with an inlet pipe and an outlet pipe introduced from an intermittent valve for controlling the flow of ammonia gas and a storage tank of ammonia gas, A neutralization reservoir containing the disaster prevention water, at least one radiation gun radiating the disaster prevention water into the ammonia field, and primary and secondary valves controlling the inflow and discharge of the disaster prevention water; A watering device equipped with a disaster prevention pump circulating the disaster prevention water; Ammonia gas disaster prevention device comprising a control lamp having a warning light, an abnormal lamp, a normal lamp, an alarm, an automatic / manual switch, a power switch, and a pH controller