JP2007064732A - Radioactive waste water treatment equipment and treatment method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a treatment method and a treatment equipment for radioactive waste water which effectively removes at a low cost, radioactive waste water generated from a nuclear power facilities and the like. <P>SOLUTION: The radioactive waste water treatment equipment 1 comprises a biological treatment tank 2 which stores the radioactive waste water containing organic substance and radioactive materials and activated sludge for growing microorganism capable of adsorbing the radioactive materials and a nutrient supply means 5 for adding nutrient, and a solid/liquid separating means 4 arranged inside or outside the biological treatment tank for separating the waste water treated with the activated sludge into solid component including the sludge and treated water. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a method and apparatus for treating radioactive wastewater. In particular, the present invention relates to a radioactive wastewater treatment method and apparatus capable of effectively and efficiently removing radioactive substances and organic substances contained in wastewater.

  Cleaning wastewater generated when washing clothes, etc., to which radioactive substances are attached, at a nuclear facility or the like, contains radioactive substances and organic substances. Such wastewater is required to be discharged outside the facility after reducing radioactive materials and organic substances to a predetermined reference value or less.

  Conventional treatment methods for detoxifying laundry wastewater include treatment methods that add powdered activated carbon or powder ion exchange resin to laundry wastewater, adsorb organic substances and radioactive substances contained in the wastewater, and then filter them with a precoat filter. There is known a processing method in which the filtrate is directly filtered through an ultrafiltration membrane or a reverse osmosis membrane, and the concentrated solution is evaporated and concentrated. However, in these methods, the amount of waste and running costs are problematic.

  In recent years, an attempt has been made to add an oxidizing agent and a catalyst to laundry wastewater to oxidize and decompose organic substances and radioactive substances therein (Patent Document 1). However, such a method has a problem that a large amount of an oxidizing agent is required to treat an organic substance with the oxidizing agent.

Furthermore, a laundry wastewater treatment method is described in which laundry wastewater discharged from a nuclear facility is aerated and mixed with activated sludge, and the resulting mixed liquid is solid-liquid separated by a microfiltration membrane (Patent Document). 2).
JP 2002-228895 A Japanese Patent Laid-Open No. 2002-210486

  An object of the present invention is to provide a treatment apparatus and a treatment method for radioactive wastewater that efficiently and efficiently removes radioactive wastewater generated in a nuclear facility or the like.

  The present invention has been made to solve the above problems. That is, according to one aspect of the present invention, there is provided a treatment apparatus for radioactive wastewater, containing radioactive wastewater containing organic matter and radioactive substances, and activated sludge on which microorganisms capable of adsorbing or absorbing the radioactive substances are grown, A biological treatment tank provided with a nutrient supply means for adding a nutrient, and a solid waste that is disposed in or outside the biological treatment tank and treated with the activated sludge is separated into solids containing sludge and treated water. Liquid separation means.

  According to another aspect of the present invention, there is provided a method for treating radioactive wastewater, comprising the step of aerobic biological treatment of radioactive wastewater containing organic matter and a radioactive substance with activated sludge, and the organic matter and the radioactive substance. Separating the treated water removed by solid-liquid separation means, and adding a nutrient to the activated sludge, wherein the aerobic biological treatment is a method for treating radioactive wastewater, Control the amount of the nutrient added according to the step of measuring the radioactivity of the radioactive wastewater, the step of measuring the activated sludge concentration in the radioactive wastewater, and the measurement result of the radioactivity and the measurement result of the activated sludge concentration. And a step of controlling so that the absorbed dose of γ-rays is 1000 Gy or less in the measurement of radioactivity.

  According to the apparatus and method for treating radioactive wastewater according to the present invention, radioactive substances contained in radioactive wastewater are adsorbed and absorbed by microorganisms in activated sludge under management, and the organic matter in the wastewater is removed by the action of microorganisms. It is possible to remove radioactive substances and organic substances at low cost and effectively by decomposing by the above.

  Hereinafter, the present invention will be described in more detail with reference to embodiments. The following embodiments do not limit the present invention.

  FIG. 1 is a conceptual diagram showing a radioactive wastewater treatment apparatus 1 according to a first embodiment. The radioactive waste water treatment apparatus 1 according to the first embodiment includes a biological treatment tank 2 provided with an oxygen supply means 3 and a nutrient supply means 5, and a solid-liquid separation means.

  The biological treatment tank 2 is a container into which radioactive wastewater such as laundry wastewater is poured, and aerobic biological treatment is performed on organic substances and radioactive nuclei in the radioactive wastewater by the action of microorganisms in the container. The biological treatment tank 2 includes activated sludge (not shown) therein. Activated sludge was initially introduced as sewage sludge and sludge used in industrial wastewater treatment as seed sludge. What was grown until it reached about 6000-15000 mg / L can be used. Thereafter, the addition of the nutrient source is stopped, and the treatment is preferably performed in the nutritional state of only the organic matter contained in the laundry wastewater and a trace amount of nitrogen (N) and phosphorus (P). The activated sludge can be held by a granular carrier or a fibrous carrier. However, in the preferred embodiment of the present invention, it is preferable to use floating activated sludge without using these various carriers.

  Microorganisms contained in activated sludge may be microorganisms that grow in activated sludge used for normal sewage sludge and industrial wastewater treatment as long as they can absorb and absorb radioactive substances. Examples include, but are not limited to, Alcaligenes, Bacillus, Corynebacterium, Flavobacterium, Pseudomonas, Rhodococcus, Beggiatoa, Leptomitus, Rhizopus, Streptomyces. In particular, microorganisms that absorb and metabolize radioactive substances include Rhodococcus, Rhizopus, Pseudomonas, Streptomyces, and the like. Adsorption depends on the concentration of the surrounding radioactive substance, but when it is absorbed and taken into the body, it does not depend on the surrounding concentration, so that the removal efficiency is improved.

  The biological treatment tank 2 further includes oxygen supply means 3 for aerobic biological treatment. The oxygen supply means 3 is mainly composed of a blower 31 and an air diffuser 32, and supplies a gas containing oxygen in an amount necessary for aerobic biological treatment to the radioactive wastewater stored in the biological treatment tank 2. The oxygen supply means 3 may further include means for adjusting the amount of air or oxygen to be supplied.

  The separation membrane 4 is a solid-liquid separation means that acts so as to allow water to pass but not allow activated sludge or fine particles to pass, and separates solids such as sludge from treated water. In the present embodiment, the separation membrane 4 is installed in the biological treatment tank 2 so that only treated water that is treated water obtained by removing organic substances and radioactive substances from radioactive wastewater can be taken out from the biological treatment tank 2. . In the present embodiment, the separation membrane 4 may be a microfiltration membrane having a pore diameter of 0.4 μm. However, any material having a pore diameter of 0.4 μm or less can be preferably used. By using the separation membrane 4, it is possible to prevent the suspension (SS) from flowing into the treatment liquid, and to completely prevent the microorganisms that have absorbed the radioactive substance and the activated sludge that has adsorbed the radioactive substance from flowing out. As a result, the radioactive substance removal rate is improved. Moreover, there is an advantage that the installation area of the apparatus is reduced by using the separation membrane 4 as the solid-liquid separation means.

  The nutrient supply means 5 adds a nutrient to the microorganisms contained in the activated sludge and prevents the death or reduction of the microorganisms. In particular, supplying nutrition to microorganisms under radiation is effective as a life prolonging measure. The nutrient supply unit 5 includes a nutrient tank 52 and a nutrient pump 51. Then, a necessary amount of nutrient can be appropriately added to the biological treatment tank 2 from the nutrient tank 52 storing the nutrient using the nutrient pump 51. The nutrient supply unit 5 may further include a supply amount adjustment unit for the nutrient pump 51 (not shown).

  As the nutrient, any organic substance that can serve as a substrate for microorganisms can be used. Examples of nutrients include, but are not limited to, molasses, sugars such as glucose, alcohols such as methanol, organic acids such as acetic acid, food residues, detergents, and the like.

  By providing the nutrient solution supply means 5 in the radioactive waste water treatment apparatus 1, it is possible to replenish the nutrients to the microorganisms during the aerobic biological treatment and maintain high organic matter decomposition performance and radioactive substance removal performance in normal operation. The processing performance can be stabilized as it is. On the other hand, even if the aerobic biological treatment operation is stopped for a long time, nutrients can be replenished to the microorganisms even during the operation stop. Performance removal performance.

  Next, a radioactive wastewater treatment method using the radioactive wastewater treatment apparatus 1 will be described with reference to FIG. The radioactive wastewater treatment method according to the present embodiment includes a step of aerobic biological treatment of radioactive wastewater with activated sludge, and a step of separating treated water from which the organic substances and radioactive substances have been removed by solid-liquid separation means, A nutrient is added to the activated sludge.

As an example of the radioactive wastewater to be treated, there is a laundry wastewater that is discharged when washing work clothes to which radioactive substances are attached in a nuclear facility or the like. Such laundry wastewater is typically radioactive materials such as cobalt, strontium, technetium, ruthenium, rhodium, palladium, cerium, cesium, thorium, uranium, neptunium, plutonium, americium, chylium, detergents, fabric fibers, It contains fats and organic substances such as carbohydrates. The radioactivity of laundry wastewater is usually about 10 ⁻³ to 10 ⁻² Bq / cm ³ (1 to 5 Gy as absorbed dose), and the organic substance concentration is usually about 50 to 200 mg / L. When it is more or less than this, the laundry wastewater can be appropriately diluted or concentrated.

  The discharged radioactive waste water is caused to flow into the biological treatment tank 2. The washing waste water 1 can be configured to flow once into a not-illustrated adjustment tank or mixing tank where the flow rate and water quality are uniformed and then flow into the biological treatment tank 2. This is because washing wastewater in nuclear facilities usually has a runoff pattern that occurs during daytime operations and does not occur at night, and there are cases where fluctuations in drainage flow rate and water quality are severe.

In the process of aerobic biological treatment of radioactive wastewater with activated sludge, radioactive substances and organic substances in the radioactive wastewater are removed from the water system in the biological treatment tank 2 by aerobic biological treatment. The activated sludge concentration at the start of the treatment can be, for example, about 6000 to 15000 mg / L. At this time, the oxygen amount (air amount) supplied from the air diffuser 32 can be set to ^{30 to} 100 L / min per 1 m ^{3 of} the biological treatment tank, for example. However, it is not limited to these conditions, and those skilled in the art can determine suitable treatment conditions according to the capacity of the biological treatment tank 2 and the amount of radioactive waste water.

  The radioactive waste water treatment method is characterized by adding a nutrient to the activated sludge. The addition of the nutrient to the biological treatment tank 2 can be performed by, for example, periodically operating the nutrient pump 51 during the aerobic biological treatment. Even if the nutrient is continuously supplied by sampling and analyzing sludge and treated water, measuring the radiation dose, and grasping the active state of microorganisms in the biological treatment tank, it is intermittently used using a timer. You may supply.

  By the aerobic biological treatment, the organic matter contained in the radioactive wastewater can be decomposed into microorganisms in the activated sludge and reduced to a predetermined reference value or less. On the other hand, some radioactive substances are adsorbed on activated sludge and removed from the aqueous system, and some radioactive substances are taken into the body of microorganisms by the metabolism of microorganisms and absorbed and removed from the aqueous system. In particular, it is known that radioactive cobalt (Co-60) is actively taken up by microorganisms to produce vitamin B12. Since the radioactive substance taken into the body in this way does not come out from the inside of the microorganism, it can be completely removed from the aqueous system as compared with the case where it is adsorbed to the resin or treated with the oxidizing agent. it can.

  In the step of separating the treated water from which the organic substances and radioactive substances have been removed by the solid-liquid separation means, the solids containing sludge and the treated water are separated by passing through the separation membrane 4, and the organic substances and radioactive substances are removed. Only the treated water is taken out from the biological treatment tank 2 as treated water. The extracted treated water can be discharged. On the other hand, the sludge extracted from the biological treatment tank 2 is dehydrated by a dehydrator, stored in a drum can, and incinerated when a predetermined amount of sludge is accumulated. The ash remaining after incineration can be subjected to ordinary disposal methods such as cement solidification and melting as radiation waste. Therefore, according to this invention, there exists an advantage that there are few generation | occurrence | production amounts of the secondary waste after radioactive waste water treatment compared with the conventional method. The amount of sludge withdrawn is adjusted so that the sludge becomes 6000 to 15000 mg / L when the activated sludge concentration (expressed as MLSS) in the biological treatment tank 2 becomes 15000 to 20000 mg / L. Sludge is extracted by opening and closing a valve provided in the extraction sludge line. The amount of extraction is determined from the sludge concentration in the biological treatment tank 2 as follows. The ratio (B / A) of the indicated value (A) of the activated sludge concentration meter and the control value (B) of the sludge concentration is obtained, and the (1-B / A) portion of the liquid in the biological treatment tank 2 is drawn out from the sludge line. .

  When there are many radioactive wastewaters to be treated, the radioactive wastewater can be sequentially added to the biological treatment tank 2 to treat the continuous wastewater. On the other hand, since the washing waste water is not always discharged in a certain amount, the treatment target water does not exist for a considerable period, for example, one month or more, and the aerobic biological treatment operation is not performed in the radioactive waste water treatment apparatus 1. In some cases. According to the radioactive waste water treatment apparatus 1 according to the present embodiment, even when the operation of the aerobic biological treatment is stopped, for example, the nutrient supply means 5 continues to periodically add the nutrient to the biological treatment tank 2, It can be kept alive with microorganisms.

  In FIG. 1, the separation membrane 4 is used as the solid-liquid separation means, but in addition to the solid-liquid separation means, a precipitation tank provided outside the biological treatment tank can be used independently of the biological treatment tank. . FIG. 2 shows a radioactive waste water treatment apparatus 1a which is a modification of FIG. The radioactive waste water treatment apparatus 1a shown in FIG. 2 includes an independent settling tank 6 at the subsequent stage of the biological treatment tank 2, and further includes a return line for returning a part of the sludge in the settling tank 6 to the biological treatment tank 2. The precipitation tank 6 may be a commonly used one as long as it can separate the activated sludge from the water from which organic substances and radioactive substances have been removed by precipitation.

  As for the radioactive waste water treatment method in the case of using the radioactive waste water treatment apparatus 1a shown in FIG. 2, the step of aerobic biological treatment of radioactive waste water with activated sludge and the step of adding a nutrient to the activated sludge are the first embodiment. It can carry out similarly to the method concerning. In the step of separating the treated water by the solid-liquid separation means, the treated wastewater is transferred to the settling tank 6 and is left to stand for solid-liquid separation. And the supernatant liquid of the sedimentation tank 6 is discharge | released as treated water, a part of settled sludge component is returned to the biological treatment tank 2, and the remainder can be processed as extraction sludge.

  According to the radioactive waste water treatment apparatus 1a according to the first embodiment of the present invention or the radioactive waste water treatment apparatus 1a according to a modified form thereof, and the radioactive waste water treatment method using them, the microorganisms in the activated sludge are subjected to an aerobic biological treatment operation. In addition, even when the aerobic biological treatment operation is stopped, a sufficient nutrient can be provided, and stabilized organic substance decomposition treatment and radioactive substance removal treatment can be enabled by the action of microorganisms.

  FIG. 3 is a conceptual diagram showing the radioactive waste water treatment apparatus 1b according to the second embodiment of the present invention. The radioactive waste water treatment apparatus 1b according to the second embodiment includes a biological treatment tank 2 provided with an oxygen supply means 3, a separation membrane 4 as a solid-liquid separation means, a nutrient supply means 5, a radioactivity monitor 7, and sludge. A densitometer 8 and a control device 9 are provided.

  Here, with respect to the biological treatment tank 2, the solid-liquid separation means 3, and the nutrient supply means 5, the same ones as described in the first embodiment or a modified form thereof can be used, and the same action is performed. Therefore, the description is omitted.

  The radioactivity monitor 7 measures the radioactivity in the radioactive waste water in the biological treatment tank 2. The radioactivity monitor 7 may be, for example, a gamma ray absorbed dose measuring device. This is because the radioactivity can be measured by measuring the absorbed dose of γ rays. Such a radioactivity monitor 7 extracts a part of the liquid from the biological treatment tank 2, measures the dose, and returns the liquid to the biological treatment tank. Alternatively, a pipe for extracting the liquid from the biological treatment tank 2 is provided, and after pumping the liquid to the radioactivity monitor 7 and measuring γ rays, the liquid in the biological treatment tank 2 is pushed out with the liquid in the biological treatment tank 2 by the same pump. It is also possible to measure continuously. Two or more radioactivity monitors 7 can be installed in the biological treatment tank 2. The installation location of the radioactivity monitor 7 is not particularly limited because radioactive wastewater in the biological treatment tank 2 can be made uniform by aeration. In addition, even if a radioactive substance is adsorbed and absorbed by activated sludge and microorganisms, it can be counted by a radioactivity monitor.

  The sludge concentration meter 8 measures the sludge concentration in the biological treatment tank 2. The sludge concentration can be measured by the amount and activity (decomposition amount of total organic carbon TOC), by the amount of oxygen decrease and the dry mass of sludge, or by the amount of dissolved oxygen decrease when the air is stopped. Yes, but not limited to. Such a sludge concentration meter 8 can be attached to an arbitrary position in the biological treatment tank 2. Two or more sludge densitometers 8 can be installed in the biological treatment tank 2.

  The control device 9 is connected to a radioactivity monitor and a sludge densitometer, and controls the nutrient supply means 5 and the pump 10 in accordance with these measured values, and the radioactivity and sludge in the radioactive wastewater in the biological treatment tank 2. It acts to keep the concentration within a predetermined range. The control device 9 according to the present embodiment is connected to the radioactivity monitor 7 and the sludge concentration meter 8 online, and further connected to the nutrient supply means 5 and the extraction blower 10 online. However, the control device may be configured not to be connected to the radioactivity monitor and the sludge concentration meter online.

  Next, a radioactive wastewater treatment method using the radioactive wastewater treatment apparatus 1b will be described with reference to FIG. The radioactive wastewater treatment method according to the present embodiment includes a step of aerobic biological treatment of radioactive wastewater containing organic substances and radioactive substances with activated sludge, and a solid-liquid separation means for treating water from which the organic substances and radioactive substances have been removed. And a step of adding a nutrient to the activated sludge, wherein the aerobic biological treatment step comprises measuring the radioactivity of the radioactive wastewater, and in the radioactive wastewater. The method further includes the step of measuring the activated sludge concentration in the radioactive waste water and the step of controlling the amount of the nutrient added according to the measurement result of the radioactivity and the measurement result of the activated sludge concentration.

  Here, since the radioactive wastewater used as a process target can be used as the radioactive wastewater similar to what was demonstrated in 1st embodiment, description is abbreviate | omitted here.

The radioactive wastewater that has flowed into the biological treatment tank 2 removes radioactive substances and organic substances in the radioactive wastewater from the water system by aerobic biological treatment. The activated sludge concentration at the start of the treatment can be, for example, about 6000 to 15000 mg / L. At this time, the amount of oxygen supplied from the air diffuser as the aeration means 21 can be set to ^{30 to} 100 L / min per 1 m ^{3 of} the biological treatment tank, for example. However, it is not limited to such conditions, and those skilled in the art can determine suitable processing conditions.

  The aerobic biological treatment is performed while monitoring the radioactivity in the biological treatment tank 2 and controlling the radioactivity according to the monitoring result. In particular, it is preferable to control so that the absorbed dose of γ rays is 1000 Gy or less, and preferably 500 Gy or less. Alternatively, it is preferable to control so that the absorbed dose rate of γ rays is 1000 Gy / hr or less, preferably 500 Gy / hr or less. This is because in this range, inactivation and death of microorganisms due to the influence of radiation are not observed. Here, “500 Gy or less” or “1000 Gy or less” includes 0 Gy in which no absorbed dose is observed. Similarly, “500 Gy / hr or less” or “1000 Gy / hr or less” includes 0 Gy / hr in which no absorbed dose rate is observed. Traditionally, microorganisms were thought to die in the presence of radioactive material. However, in the present invention, by performing aerobic biological treatment while controlling the radioactivity within the above range, it is possible to decompose organic substances by microorganisms and to adsorb and take up radioactive substances, and to treat radioactive wastewater. It was issued.

  Control of the absorbed dose of γ-rays can be achieved by reducing the inflow of radioactive wastewater, increasing the extraction of activated sludge, or increasing the amount of nutrients added so that the radiometer reading is less than the specified value. Can be adjusted. By setting the absorbed dose of γ rays or the absorbed dose rate of γ rays to the above predetermined value or less, killing of microorganisms caused by radiation can be prevented, and stable organic matter decomposition performance can be obtained. Moreover, if the radiation dose is within the above range, the radiation can be adsorbed and removed without killing the microorganisms. Furthermore, some microorganisms take in the radioactive substance Co into the body and produce vitamin B12, and can absorb and remove the radioactive substance most safely and completely.

  Such a control operation can be performed by controlling the flow rate of the nutrient pump and the ON / OFF of the extraction sludge pump with the control device 9 connected to the radioactivity monitor 7 as shown in the figure. Alternatively, the operator can perform ON / OFF control of the nutrient solution pump and the extraction sludge pump based on the measured value of the radioactivity monitor 7.

  The aerobic biological treatment is performed while monitoring the activated sludge concentration and controlling the sludge concentration according to the monitoring result. In particular, the activated sludge concentration is controlled to 3000 to 20000 mg / L, preferably 6000 to 15000 mg / L. The control of the activated sludge concentration can be interlocked with the adjustment of the amount of nutrient added, for example. At this time, the activated sludge concentration meter and the control device are connected, the control device and the nutrient supply device are connected, and the nutrient solution supply device can be operated according to the monitoring result of the activated sludge concentration. Such control operation can also be performed by controlling the nutrient solution pump 51 and the sludge extraction pump 10 with the control device 9 connected to the sludge concentration meter 8 as shown in the figure. Alternatively, the nutrient pump 51 and the sludge extraction pump 10 can be operated by the operator operating the control device 9 based on the measured value of the sludge concentration meter 8.

  According to the radioactive wastewater treatment apparatus and the radioactive wastewater treatment method according to the second embodiment of the present invention, microorganisms are killed by monitoring and controlling the radioactivity and sludge concentration in the biological treatment tank 2 to be below predetermined values. Can be prevented, and a stabilized process can be realized.

  FIG. 4 is a conceptual diagram showing the radioactive waste water treatment apparatus 1c according to the third embodiment of the present invention. The radioactive waste water treatment apparatus 1c according to the third embodiment includes a biological treatment tank 2 provided with an oxygen supply means 3, a separation membrane 4 serving as a solid-liquid separation means, and a monitor tank 11.

  The monitor tank 11 is a tank into which treated water that has passed through the separation membrane 4 flows. The monitor tank 11 includes a treated water radioactivity monitor 12. The treated water radioactivity monitor 12 measures the radioactivity of the monitor tank 11 and detects leakage of radioactivity from the biological treatment tank 2. A return pump 13 is further connected to the monitor tank 11, and when leakage of radioactivity is detected, the water that has flowed into the monitor tank 11 by the return pump 13 can be returned to the biological treatment tank 2. Act as you can.

  For example, it is preferable to return the treated water to the biological treatment tank 2 when the absorbed dose of the treated water in the monitor tank 11 measured by the treated water radioactivity monitor 12 becomes an environmental reference value or more. This is because the treated water in the monitor tank 11 usually needs to be purified to such an extent that it can be discharged into a river or sea area as it is.

  The illustrated radioactive wastewater treatment apparatus 1c does not include a radioactivity monitor, a sludge concentration meter, and a nutrient supply unit in the biological treatment tank 2, but includes a part or all of these and a monitor tank 11. It may be a form of radioactive wastewater treatment equipment.

  According to the radioactive waste water treatment apparatus and the radioactive waste water treatment method according to the third embodiment of the present invention, even when the radioactivity removal performance by living organisms is reduced, the release of radioactivity into the environment can be prevented in advance.

[Reference Example 1]
As a reference example, the effect of gamma rays on the organic matter decomposition by activated sludge was measured, and the conditions under which aerobic biological treatment was possible even in the presence of radioactive substances were identified.

  Using the radioactive waste water treatment apparatus (FIG. 2) described in the first embodiment of the present invention, the γ-ray intensity and the decomposition rate of the detergent by activated sludge were measured. Here, the initial concentration (TOC) of the detergent which is an organic substance was 100 mg / L. Further, the activated sludge concentration was adjusted to 6000 mg / L in the initial stage, and the oxygen supply amount was set to 0.1 L / min. The results are shown in FIG. The TOC decomposition rate when the absorbed dose was 0 Gy was 4.6 mg / L / hr. As a result of the measurement, it was found that a sufficient TOC decomposition rate was maintained even under a high radiation dose of about 500 Gy.

[Reference Example 2]
Next, using the same apparatus as in Reference Example 1, the irradiation dose rate and the decomposition rate of the detergent with activated sludge were measured while changing the irradiation time of γ rays. The results are shown in FIG. The TOC decomposition rate when the absorbed dose was 0 Gy was 4.6 mg / L / hr. As a result of the measurement, it was found that a sufficient TOC decomposition rate was maintained even under a high radiation dose of about 500 Gy / hr.

It is a figure which shows the radioactive waste water treatment apparatus by 1st embodiment. It is a figure which shows the deformation | transformation of the radioactive waste water treatment apparatus by 1st embodiment. It is a figure which shows the radioactive waste water treatment apparatus by 2nd embodiment. It is a figure which shows the radioactive waste water treatment apparatus by 3rd embodiment. It is a graph which shows the influence of the gamma ray which acts on the detergent decomposition | disassembly by the activated sludge of Reference Example 1. It is a graph which shows the influence of the gamma ray which acts on detergent decomposition | disassembly by the activated sludge of Reference Example 2.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 1a, 1b, 1c Radioactive waste water treatment equipment 2 Biological treatment tank 3 Oxygen supply means 4 Separation membrane 5 Nutrient supply means 51 Nutrient pump 52 Nutrient tank 6 Precipitation tank 7 Radioactivity monitor 8 Active sludge concentration meter 9 Control device 10 Sludge extraction pump 11 Monitor tank 12 Treated water radioactivity monitor 13 Return pump

Claims (8)

A biological treatment tank for containing radioactive waste water containing organic matter and radioactive substances, and activated sludge on which microorganisms capable of adsorbing or absorbing the radioactive substances grow;
A nutrient supply means for adding a nutrient to the biological treatment tank;
A radioactive wastewater treatment apparatus comprising solid-liquid separation means that separates wastewater disposed in or outside the biological treatment tank and treated with the activated sludge into solids containing sludge and treated water. In the biological treatment tank,
A radioactivity monitor for measuring radioactivity in radioactive wastewater;
An activated sludge concentration meter that measures the activated sludge concentration in radioactive wastewater;
The radioactive waste water treatment apparatus according to claim 1, further comprising a control device that controls a supply amount of the nutrient according to measurement results of the radioactivity monitor and the activated sludge densitometer. A monitor tank for monitoring the radioactivity of the treated water separated into the solid and liquid is further provided at the subsequent stage of the solid-liquid separation means,
A treated water radioactivity monitor for measuring the radioactivity of the treated water in the monitor tank;
The radioactive waste water treatment apparatus according to claim 1, further comprising a return pump that returns the treated water in the monitor tank to the biological treatment tank according to the measurement result of the treated water radioactivity monitor.   The radioactive waste water treatment apparatus according to any one of claims 1 to 3, wherein the solid-liquid separation means is a separation membrane disposed in the biological treatment tank. A process of aerobic biological treatment of radioactive wastewater containing organic matter and radioactive material with activated sludge on which microorganisms that adsorb or absorb the radioactive material grow;
A process for separating the treated water from which the organic substances and radioactive substances have been removed by solid-liquid separation means, and a method for treating radioactive wastewater, comprising adding a nutrient to the activated sludge,
The aerobic biological treatment step comprises:
Measuring the radioactivity of radioactive wastewater;
Measuring the activated sludge concentration in radioactive wastewater;
Further comprising controlling the amount of the nutrient added according to the measurement result of the radioactivity and the measurement result of the activated sludge concentration,
In the measurement of radioactivity, the radioactive wastewater treatment method is characterized in that the absorbed dose of γ rays is controlled to be 1000 Gy or less.   The method for treating radioactive waste water according to claim 5, wherein the nutrient is added during the aerobic biological treatment step.   The method for treating radioactive wastewater according to claim 5, wherein the nutrient is added when the aerobic biological treatment step is not performed. A step of measuring the radioactivity of the treated water after the step of separating the treated water by solid-liquid separation means;
The method for treating radioactive wastewater according to any one of claims 5 to 7, further comprising a step of returning the treated water to the aerobic biological treatment step in accordance with the measurement result of the radioactivity.

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