KR200377510Y1 - Decontaminating device of waste-oil radioactive - Google Patents

Abstract

The present invention relates to a radioactive waste oil decontamination apparatus, and more particularly, to a radioactive waste oil decontamination apparatus for decontaminating radioactive material from waste lubricating oil generated after being used in various pumps of a nuclear power plant.

That is, the present invention is a radioactive waste oil decontamination apparatus, comprising: a decontamination treatment chamber provided with a space to decontaminate waste oil therein; A first reaction tank provided inside the decontamination treatment chamber for storing waste oil introduced from the outside, wherein the first reaction tank approximately precipitates radioactive contaminants therein; A second reaction tank into which the waste oil which has passed through the first reaction tank is introduced and stored secondary, and generates a contaminant as a salt according to a chemical reaction by injecting a predetermined chemical into the waste oil; A heat source providing unit provided below each of the first and second reactors and providing a heat source so that the temperature inside the first and second reactors can reach the reaction temperature by an externally applied power source; A stirrer provided to be disposed from the upper side of the first and second reactors to penetrate the inside, respectively, to mix waste oil stored in the first and second reactors; A centrifuge in communication with the first and second reactors for rotating the stirred radioactive waste oil in the first and second reactors to separate sludge and waste oil which are precipitated contaminants; A nitrogen supply unit communicating with the first and second reactors to cut off the applied power and rapidly lowering the waste oil temperature of the first and second reactors to below the lower point; Provides a radioactive waste oil decontamination apparatus is provided; and a storage tank communicating with the second reaction tank and the purified waste oil is stored, and is provided to be discharged to the outside.

Description

Decontaminating device of waste-oil radioactive

The present invention relates to a radioactive waste oil decontamination apparatus, and more particularly, to a radioactive waste oil decontamination apparatus for decontaminating radioactive material from waste lubricating oil generated after being used in various pumps of a nuclear power plant.

In general, most of the devices or equipments used in nuclear power facilities (nuclear power plants, nuclear power plants, etc.) and those which have to be disposed of at the end of their lifetime are radioactively contaminated. It must be decontaminated to remove radioactivity and treated in accordance with the provisions of the Atomic Energy Act.

Here, there are two types of decontamination for removing radioactivity from radioactively contaminated machinery, mechanical decontamination using a machine such as high pressure washing and decontamination using chemicals.

On the other hand, waste oil used in nuclear power plants should be treated as radioactive waste due to radioactive contamination, but due to the nature of waste oil, packaging conditions under the Atomic Energy Act cannot be satisfied, so they are stored in the radiation zone of nuclear power plants. Means were needed desperately.

Conventional waste oil salt treatment methods include incineration treatment and solidification treatment. In the incineration treatment method described above, the treatment by flame causes the problem of purification according to the treatment of the exhaust gas generated in the incineration treatment, licensing, complaints and environmental pollution. It is difficult to apply practically, and the solidification treatment is a treatment method for physically fixing and chemically stabilizing the waste in the solid structure by mixing the material with the solid fixing the waste material. 3 times) there was a problem.

The present invention has been made to solve the above problems, and its object is to provide a radioactive waste oil decontamination apparatus that can reduce the amount of radioactive waste generated by adding a specific chemical precipitant to the waste oil and decontaminating and decontaminating the pollutants. Is in.

In order to achieve the above object, the present invention is a radioactive waste oil decontamination apparatus, comprising: a decontamination treatment chamber provided with a space to decontaminate waste oil therein; A first reaction tank provided inside the decontamination treatment chamber for storing waste oil introduced from the outside, wherein the first reaction tank approximately precipitates radioactive contaminants therein; A second reaction tank into which the waste oil which has passed through the first reaction tank is introduced and stored secondary, and generates a contaminant as a salt according to a chemical reaction by injecting a predetermined chemical into the waste oil; A heat source providing unit provided below each of the first and second reactors and providing a heat source so that the temperature inside the first and second reactors can reach the reaction temperature by an externally applied power source; A stirrer provided to be disposed from the upper side of the first and second reactors to penetrate the inside, respectively, to mix waste oil stored in the first and second reactors; A centrifuge in communication with the first and second reactors for rotating the stirred radioactive waste oil in the first and second reactors to separate sludge and waste oil which are precipitated contaminants; A nitrogen supply unit communicating with the first and second reactors to cut off the applied power and rapidly lowering the waste oil temperature of the first and second reactors to below the lower point; A storage tank communicating with the second reaction tank and storing the purified waste oil and being discharged to the outside is provided, whereby the introduced waste oil is stored in the first reaction tank and provided below the first reaction tank. By studying the waste oil is raised to the appropriate temperature by stirring the waste oil in the stirrer to precipitate the pollutants, the waste oil rotated in the centrifuge and the precipitated pollutants are separated by centrifugal force to discharge the high specific gravity pollutants, The less decontaminated waste oil is transferred to a second reactor and stored in the second reactor, and the waste oil is raised to an appropriate temperature by a heat source providing unit provided below in the second reactor. When chemical substances are added to the waste oil and stirred, the contaminants precipitated in the waste oil are chlorinated, and the waste oil rotated in the centrifuge and contaminated Jilin salts are salts with high specific gravity to separate by centrifugal force is discharged to the outside by a separate process, and the decontamination waste oil is preferred because is stored in the storage tank discharged to the outside.

In addition, the first and second reactors of the present invention, the sensor unit for sensing the temperature of the waste oil is provided on one side of the inside, the thermostat for controlling the temperature of the heat source providing unit constant by the output value detected by the sensor unit When the temperature of the waste oil is higher or lower than the set temperature, the sensor unit for detecting the temperature of the waste oil detects this and outputs a signal to the thermostat to connect or cut off the applied power to the hot roll providing unit. It is preferable because the temperature of the waste oil provided in the reactor 2 is kept constant.

In addition, the present invention is provided above the decontamination treatment chamber, and an air purifying unit is provided to purify the gas generated during decontamination of waste oil in the decontamination treatment chamber and discharge it to the outside. It is preferable to discharge the gas containing the contaminant to the outside through the air purification unit because it is likely to be environmentally friendly.

In addition, the present invention is provided in the upper side of the decontamination treatment chamber, by providing a halon extinguishing device for injecting and extinguishing the halon gas in the event of a fire in the decontamination treatment chamber, the halon extinguishing device operates and adversely affects the machine even if the halon gas is injected It is preferable because it does not.

In addition, the lower surface of the decontamination treatment chamber in the present invention is provided with a movable wheel, one side thereof is further provided with a towing to be towed by an external transport means, it is preferable to move to each nuclear power plant site easily used. Do.

Hereinafter, with reference to the accompanying drawings, the radioactive waste oil decontamination apparatus of the present invention will be described as follows.

The radioactive waste oil decontamination apparatus of a preferred embodiment of the present invention has a decontamination treatment chamber 100, a first reaction tank 110 provided on one side of the decontamination treatment chamber 100, and the first reaction tank ( A heat source providing unit 114 provided in the lower side of the 110, an agitator 122 penetrating through the upper surface of the first reactor and extending therein, and a power supply unit electrically connected to the heat source providing unit 114. 116, one end of the first reaction tank 110 and the other end is in communication with the second reaction tank 130, the centrifuge 128, and the second reaction tank provided on the other side in the decontamination treatment chamber 100 ( 130), the heat source providing unit 134 provided below the second reaction tank 130, the heat source providing unit 134 provided below the second reaction tank 130, and the second reaction tank 130. The stirrer 142 penetrates from an upper surface thereof and extends therein, and the heat source providing unit 134 is electrically connected to the stirrer 142. One end is in communication with the power supply unit 136, the second reactor 130 and the other end is connected to the centrifuge 148 and the storage tank 160, and the first and second reactors 110 and 130 ), A nitrogen gas supply unit 150 for injecting nitrogen gas into one of them, the Halon fire extinguishing device 170, the air pollution detection unit 172, the air purifying unit 180, and the pump P ₁ , P ₂ , P ₃ , P ₄ ) are provided.

The decontamination treatment chamber 100 is a decontamination treatment in the process of introducing and discharging wastewater from the inside, the mobile wheel 104 is provided on the lower surface to move to the site of each nuclear power plant, the one side wall to the transport means A tow 106 to be connected and towed is provided.

In addition, the decontamination treatment chamber 100 has a structure that is separated up and down for maintenance of the components of the interior, and one side wall of the decontamination treatment chamber 100 to provide an externally applied power to the connector (Connector: 102 is provided.

In addition, the first and second reactors 110 and 130 are provided in the horizontal direction extending in the longitudinal direction from the lower side, the four ends are bent obliquely upwards, and the waste oil flows out from the first and second reactors 110 and 130. In order to prevent the outflow to the outside of the decontamination treatment chamber 100 is disposed waste oil receiving unit 108 is collected is collected.

The first reactor 110 has a hollow cylindrical or polygonal shape so that the waste oil can be stored therein, one side wall is provided with a flow meter 112 for visually confirming the waste flow therein, the inner lower side thereof A heat source providing unit 114 electrically connected to a power supply unit 116 for supplying power to adjust the temperature of the waste oil filled by an appropriate amount inside the first reactor 110 is provided, and the heat source providing unit 114 is provided. Is connected to the connector 102.

In addition, a temperature sensing sensor unit 118 is provided on one inner wall of the first reactor 110 to sense and output the temperature of the waste oil, and receives a signal output from the sensor unit 118 to provide a heat source providing unit ( It is provided with a thermostat 120 to adjust the height of the heat source provided in 114, and to maintain a constant according to the set temperature and the current temperature of the waste oil.

Here, when the temperature controller 120 deviates from the set temperature according to the temperature of the waste oil detected by the sensor unit 118, the thermostat 120 cuts off or connects the power of the power supply unit 116 and the heat source providing unit 114 to waste oil. It has a function to adjust the temperature to be maintained at the set temperature.

The stirrer 122 is electrically connected to the connector 102 provided on one side wall of the decontamination treatment chamber 100, the drive motor 124 and the drive shaft of the drive motor 124 to provide a driving force by the applied power It is coupled to the lower end of the heat source providing unit 124 provided in the first reaction tank 110 and the stirring blade 126 extending to a position spaced upward above a predetermined distance. In addition, if the stirring is stopped while stirring the waste oil in the stirrer 122 described above, aggregation occurs to contaminate the contaminants.

Here, the reason for stirring the waste oil is to improve the reaction between the contaminant and the specific chemical precipitant by stirring while the waste oil containing the contaminant is raised by an appropriate reaction temperature by the heat source providing unit 114.

The centrifuge 128 is provided on the way to communicate the first reaction tank 110 and the second reaction tank 130 by a pipe, the pipe connected to the first reactor 110 and the heat source providing unit 114 and The conduit is located in close proximity and connected to the second reactor 130 is located above the second reactor (130).

In addition, the function of the centrifuge 128 is that when the waste oil introduced into the first reactor 110 is stirred by the stirrer 122, contaminants in the waste oil are approximately precipitated, and the precipitated waste oil is centrifugal separator 128. After the inflow to the drive means (not shown in the figure) is rotated by the centrifugal force caused by the rotation of the drive means sedimented contaminants having a high specific gravity is separated to the outside and the waste oil is moved to the second reactor (130). On the other hand, the pollutant separated separately is discharged through a valve provided on one side wall of the centrifuge 128 is managed separately.

The second reactor 130 stores the waste oil of the waste oil of the first reactor 110 and roughly removes the radioactive material contained in the waste oil by the centrifugation method of the centrifuge 128, the shape of which is hollow. In the shape of a phosphorus cylinder or a polygonal cylinder, one side wall is provided with a flow meter 132 that can visually check the waste flow in the interior, the lower side inside the second reaction tank 130 is filled with an appropriate amount of waste oil temperature A power supply unit 136 for supplying power to be adjusted, and a heat source providing unit 134 electrically connected to the power supply unit 136 to adjust the temperature of the waste oil are provided, and the heat source providing unit 134 is a connector. And 102. In addition, an inlet 133 is provided on the upper side of the second reactor 130 to inject a predetermined chemical precipitant into the waste oil filled in the second reactor 130.

On the other hand, the heat source providing unit 114, 134 is a heater (heater), it is possible to replace the one that can provide heat to the waste oil by the applied power.

In addition, a temperature sensing sensor unit 138 is provided on one side inner wall of the second reactor 130 to sense and output the temperature of the waste oil, and receives a signal output from the sensor unit 138 to provide a heat source providing unit ( A thermostat 140 is provided to adjust the heat source provided from 134 and to maintain a constant temperature according to the set temperature of the waste oil and the current temperature of the waste oil.

Here, when the temperature controller 140 outside the set temperature of the waste oil according to the detected temperature of the waste oil detected by the sensor unit 138 cuts off the power of the power supply unit 136 and the heat source providing unit 134 or It has the function of adjusting the waste oil temperature to maintain the set temperature by connecting.

The stirrer 142 is electrically connected to the connector 102 provided on one side wall of the decontamination treatment chamber 100, and a drive motor 144 and a drive shaft of the drive motor 144 that provide a driving force by the applied power. It is coupled to the lower end of the heat source providing unit 144 provided in the second reaction tank 130 and consists of a stirring blade 146 extending to a position spaced upward upward by a predetermined distance. In addition, when the agitator 142 is stirred with the waste oil and the stirring is stopped, aggregation occurs to contaminate the contaminants.

The centrifugal separator 148 is provided in the middle of communicating the second reaction tank 130 and the storage tank 160 by a conduit, and the conduit connected to the second reaction tank 130 is close to the heat source providing unit 134. And a conduit connected to the storage tank 160 is located above the storage tank 160.

Here, the function of the centrifugal separator 148 is to put a predetermined chemical precipitant into the waste oil introduced into the second reactor 130, and then stir by the stirrer 142 to stop the salt contaminated in the waste oil (salt). When the contaminant and waste oil made of the salt are introduced into the centrifuge 148 and rotated by a driving means (not shown), it is a precipitated pollutant having a high specific gravity due to the centrifugal force caused by the rotation of the driving means. The salt is separated outward and the waste oil is transferred to the storage tank 160. On the other hand, the salt, which is a separate pollutant, is discharged through a valve provided on one side wall of the centrifuge 148 to be separately managed.

The chemical precipitant is phosphoric acid, sulfuric acid, sodium hydroxide (Sodium Hydroxide), calcium hydroxide (Calcium Hydroxide), etc. When the chemical precipitant is added to the waste oil, the radioactive contaminants are salted and are easily separated and discharged from the waste oil.

The storage tank 160 is a space in which the waste oil refined into the hollow is finally stored. On one side, an opening / closing valve is provided which can be discharged to the outside through the outside of the decontamination treatment chamber 100 spaced apart.

Here, the inside of the storage tank 160 and the upper side of the second reactor 130 are communicated with each other by a pipeline, a pair of valves are provided in the middle and extends from the middle portion of the valve to the inside of the storage tank 160 The pipeline is connected. Here, the pump P ₄ is provided in the middle of the pipeline extending between the valve and the valve. That is, when the maximum storage capacity of the refined waste oil that can be stored in the storage tank 160 is exceeded, the pump P ₄ provided in the upper region of the storage tank 160 operates to flow into the second reaction tank 130. Purified waste oil is re-injected into the second reactor 130, and the re-injected waste oil is decontaminated once more in the second reactor (130).

The above-described pumps P ₁ , P ₂ , P ₃ , P ₄ increase the suction power, the pump P ₁ is provided on the outside, the drum barrel (D) is filled with waste oil containing contaminants therein and It is provided in the middle of the pipeline connecting the first reactor 110, the pump (P ₂ ) is provided in the middle of the pipeline between the first reactor 110 and the centrifuge 128, the pump (P ₃ ) is the first It is provided in the middle of the pipeline between the two reaction tank 130 and the centrifuge 148, and as described above, the pump P ₄ is provided in the middle of the pipeline between the centrifuge 148 and the storage tank 160.

The nitrogen gas supply unit 150 is communicated by a conduit between the first reactor 110 and the second reactor 130, the nitrogen gas supply unit 150 to the first, second reactors (110, 130) It is a safety device for safety by injecting nitrogen gas. Its function is that the flash point of the waste oil is about 425 ° F and the operating temperature is about 250 ° F. When the applied power is lost, the temperature inside the first and second reactors 110 and 130 is lost. It can explode by rising above the flash point, and when the nitrogen gas of about 10 PSIG, which is an appropriate pressure, is introduced into the first and second reactors 110 and 130, a cooling effect occurs due to the rapid diffusion of nitrogen gas. Thus, the waste oil inside the first and second reactors 110 and 130 is maintained at a low temperature in a stable state. Therefore, when the applied power is disconnected, the nitrogen gas supply unit 150 can be automatically operated, and when the internal temperature of the other first and second reactors 110 and 130 rises sharply, the worker detects this and manually enters the nitrogen. Inject gas.

In addition, a hood 174 is provided at an upper side of the decontamination treatment chamber 100 to collect the gas in consideration of the outflow of contaminated gas that may be generated during decontamination of waste oil inside the decontamination treatment chamber 100. The gas collected in the hood 174 moves through the conduit, but the purified gas moves through the air purification unit 180 provided in the middle of the conduit, and the purified gas is sucked from the blower B provided at the end of the conduit. To the outside.

Here, the lower side of the hood 174 is provided with a halon fire extinguishing device 170 and an air pollution detection unit 172, the halon fire extinguishing device 170 is a fire extinguishing agent than a fire extinguisher such as water, foam, powder, etc. This is a type of fire extinguisher that is excellent in fire and is not damaged due to incombustibility such as electric air, oil, metals, etc., which is used for fire, such as carbon dioxide. Therefore, even if the Halon fire extinguishing device 170 is operated to prevent damage to the machine, such as the components of the interior of the decontamination treatment chamber 100.

The air pollution detection unit 172 is a device for detecting a pollution degree before purifying the gas flowing out of the decontamination treatment chamber 100 in the gas generated during decontamination and discharged to the outside.

The air purifier 180 is provided with a pre-filter 182, a HEPA filter 184, an activated carbon filter 186, and a HEPA filter 188, which are sequentially discharged through the respective filters. Purify the product to be harmless to human body. Here, since the structure and the characteristic of each filter are well-known matters, detailed description is abbreviate | omitted.

Therefore, the operation process of the radioactive waste oil decontamination apparatus according to the present invention is provided on the outside as shown in Figure 1, the waste oil of the drum (D) in which the waste oil containing radioactive pollutant is stored in an appropriate amount of the first reactor 110 The first reaction tank 110 is moved by the pump (P ₁ ) to the inside of the) and then supplying the power supply of the power supply unit 116 to the heat source providing unit 114 provided in the lower side of the first reaction tank (110). While maintaining the internal temperature of the set temperature, in that state by stirring the waste oil for a predetermined time by the stirrer 122 provided on the upper surface of the first reactor 110, the aggregation occurs and contaminants in the waste oil precipitates.

Thereafter, the waste oil provided in the first reactor 110 is moved to the centrifuge 128 through a conduit communicated with the centrifuge 128, and is performed by a pump P ₂ which increases suction power. . The waste oil and contaminants introduced into the centrifuge 128 are separated from the waste oil and contaminants by the centrifugal force of the centrifuge 128, and only the contaminants are discharged to the outside.

In this case, since the contaminants are not completely removed in the first reactor 110, the second oil is decontaminated once more in the second reactor 130, and the process is the same as in the first reactor 110. .

Here, the difference between the decontamination performed in the first reactor 110 and the second reactor 130 is that in the first reactor 110, the waste oil is stirred to precipitate the impurities in the waste oil, and the second reactor 130 In), the addition of certain chemical precipitants (phosphoric acid, sulfuric acid, sodium hydroxide, calcium hydroxide, etc.) during the stirring of the waste oil reacts with the contaminated impurities (radioactive material) of the waste oil to form salts (precipitates).

Then, the decontaminated waste water in the second reaction tank 130 is moved to the storage tank 160 and connected to the outside of the decontamination treatment chamber 100 by a pipeline from the storage tank 160 to inspect the radioactive contamination of the waste oil. . After that, if the pollution degree is high according to the result of decontamination of waste oil, decontamination is carried out.

Meanwhile, the nitrogen gas supply unit 150 communicates with each other in the first and second reaction tanks 110 and 130 to inject nitrogen gas into the first and second reaction tanks 110 and 130 by the nitrogen gas supply unit 150. The rapid diffusion of the nitrogen gas reduces the power supply of the decontamination apparatus or the sudden rise in temperature to prevent the temperature of the first and second reactors 110 and 130 from abnormally rising to rise above the flash point. To achieve a cooling effect.

In addition, in preparation for a fire that may occur by the Halon fire extinguishing device 170 provided above in the decontamination treatment chamber 100, the pollution level of the polluted gas discharged to the outside by the air pollution detection unit 172 may be determined. If the contamination level of the gas detected by the air pollution detection unit 172 is small and cannot be detected by the air pollution detection unit 172, the air purification unit 180 is provided through a conduit communicated with a hood 174 provided at an upper side thereof to collect gas. The gas purified by the pre-filter 182, the hepa filter 184, the activated carbon filter 186, and the hepa filter 188, which are each provided in the filter, is discharged to the outside through the blower B.

The radioactive waste oil decontamination apparatus of the present invention provides a stirrer and a heat source providing unit in a first reactor for waste oil stored in a drum, and properly maintains the reaction temperature in the first reactor by a thermostat connected to the first reactor. The effect can be maximized, and the contaminant precipitate is roughly removed by a centrifuge, and the reaction temperature in the second reactor is maintained by the thermostat connected to the second reactor as in the first reactor. By adding contaminants into salts, the contaminants are completely removed by centrifugal separators to decontaminate radioactive waste oil.

In addition, a movable wheel is attached to the bottom surface of the decontamination treatment chamber, and one side wall is provided with a traction port to be towed by a transportation means, so that it can be easily moved and grafted to each nuclear power plant site.

1 is a schematic diagram showing a radioactive waste oil decontamination apparatus according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: decontamination chamber 110, 130: first and second reactor

114, 134: heat source providing unit 116, 136: power supply unit

118, 138: sensor unit 120, 140: thermostat

122, 142: stirrer 150: nitrogen supply

160: storage tank 180: air purification unit

Claims (5)

In the radioactive waste oil decontamination apparatus, A decontamination treatment chamber provided with a space for decontaminating waste oil therein; A first reaction tank provided inside the decontamination treatment chamber for storing waste oil introduced from the outside, wherein the first reaction tank approximately precipitates radioactive contaminants therein; A second reaction tank into which the waste oil which has passed through the first reaction tank is introduced and stored secondary, and generates a contaminant as a salt according to a chemical reaction by injecting a predetermined chemical into the waste oil; A heat source providing unit provided below each of the first and second reactors and providing a heat source so that the temperature inside the first and second reactors can reach the reaction temperature by an externally applied power source; A stirrer provided to be disposed from the upper side of the first and second reactors to penetrate the inside, respectively, to mix waste oil stored in the first and second reactors; A centrifuge in communication with the first and second reactors for rotating the stirred radioactive waste oil in the first and second reactors to separate sludge and waste oil which are precipitated contaminants; A nitrogen supply unit communicating with the first and second reactors to cut off the applied power and rapidly lowering the waste oil temperature of the first and second reactors to below the lower point; And a storage tank communicating with the second reaction tank and storing the purified waste oil and being discharged to the outside. The method of claim 1, wherein the first and second reactors, A radioactive waste decontamination apparatus, characterized in that the sensor unit for detecting the temperature of the waste oil is provided on one side of the inside, a thermostat for constantly controlling the temperature of the heat source providing unit by the output value detected by the sensor unit. The method of claim 1, A radioactive waste oil decontamination apparatus is provided above the decontamination treatment chamber, and is provided with an air purifying unit purifying the gas generated during decontamination of the waste oil in the decontamination treatment chamber and discharging it to the outside. The method of claim 3, wherein A radioactive waste oil decontamination apparatus is provided above the decontamination treatment chamber, and is provided in the decontamination treatment chamber in order to extinguish the halon gas by extinguishing the fire in the event of a fire. The method of claim 4, wherein The lower surface of the decontamination treatment chamber is provided with a movable wheel, the radioactive waste decontamination apparatus, characterized in that the side is further provided with a traction port to be towed by an external transport means.