KR101399365B1 - Apparatus for disposal of liquid radioactive waste - Google Patents

Abstract

The present invention relates to a radioactive liquid waste treatment device capable of reducing the volume of concentrated water by additionally installing an oil removal filter, a microfiltration or ultrafiltration membrane, and a nano or reverse osmosis membrane. The present invention can reduce the volume of radioactive liquid waste concentrated water by installing a thickener on the radioactive liquid waste treatment device, thereby reducing the operation load of a concentrated water drying facility or a concentrated water treatment facility and saving energy.

Description

TECHNICAL FIELD [0001] The present invention relates to a radioactive waste disposal apparatus,

The present invention relates to the treatment of radioactive liquid wastes.

Korea Nuclear Power Plant has operated evaporator or centrifuge as treatment facility to treat radioactive liquid waste. However, in order to improve the performance of the treatment facilities, a pretreatment system was installed at the front of the evaporator or the centrifuge to remove the suspended substances, turbidity inducing substances, detergents, fluffs, particulate nuclides (Cr, Co, Ag, Fe, K, and Mg) were removed in advance to improve the effluent treatment system to discharge the final treated water from the ion exchange resin.

This method is disclosed in Korean Patent Registration No. 10-06575769, but it is believed that this method reduces the treatment flow rate of the microfiltration or ultrafiltration membrane when the oil component is contained in the radioactive liquid waste and the radioactive liquid containing the boric acid When waste flows in, the treatment flow rate of the nano or reverse osmosis membrane decreases.

In addition, in the above method, the membrane separation tank is drained, stored in a concentrated waste liquid storage tank installed in a nuclear power plant, and treated using a separate concentrated waste liquid drier or a concentrated waste liquid processing facility. The same method is used.

However, in the case where concentrated wastewater exceeds the treatmentable capacity of the concentrated wastewater drying facility or concentrated wastewater treatment facility, the water level of the concentrated wastewater storage tank is increased to stop the radioactive liquid waste treatment facility to prevent the concentrated water from being generated, A problem arises.

Korean Patent No. 10-0675769

The object of the present invention is to reduce the volume of concentrated water by forming a concentrating tank by providing a boundary plate in a membrane separation tank and providing a microfiltration or ultrafiltration membrane in the concentrate tank.

It is also intended to further reduce the volume of the concentrated water by providing an oil removal filter device and a nano or reverse osmosis separation membrane.

Another object of the present invention is to provide an eco-friendly method which can save energy by reducing the operation load of a drying apparatus for concentrated water using the apparatus for treating a waste liquid of the present invention.

In order to achieve the above object,

The present invention includes a membrane separation tank (8) provided with a microfiltration or ultrafiltration membrane (9-A) therein; A nano or reverse osmosis membrane (9-B); Wherein the membrane separation plate (103) is provided in the membrane separation tank (8) to form a concentration tank (117), and the membrane separation tank (8) (117) has at least one microfiltration or ultrafiltration membrane (102) therein.

The present invention can reduce the volume of radioactive liquid waste concentrated water by installing a concentration tank in a radioactive liquid waste disposal apparatus, thereby saving energy by reducing the operation load of the concentrated water drying facility or the concentrated water treatment facility.

In addition, when the waste liquid containing the oil component and the boric acid is introduced, the processing flow of the microfiltration or the treatment of the ultrafiltration membrane 9-A and the nano or reverse osmosis membrane 9-B is reduced, .

1 is a conventional radioactive liquid waste disposal apparatus.
2 is an apparatus for treating radioactive liquid waste according to the present invention.

Hereinafter, the present invention will be described in more detail.

The apparatus for treating radioactive liquid waste according to the present invention comprises a membrane separation tank (8) provided with a microfiltration or ultrafiltration membrane (9-A) therein; A nano or reverse osmosis membrane (9-B); And a membrane boundary plate 103 is provided in the membrane separation tank 8 to form a concentration tank 117. The concentration tank 117 is provided inside the membrane separation tank 8, And at least one microfiltration or ultrafiltration membrane 102 is provided.

More specifically, it is configured as follows.

A membrane separation tank 8 provided with a microfiltration or ultrafiltration membrane 9-A therein; A microfiltration or ultrafiltration membrane treatment water storage tank 11 -A for storing the treated water filtered by the microfiltration or ultrafiltration membrane 9-A; A nano or reverse osmosis membrane (9-B) for filtering the treated water stored in the microfiltration or ultrafiltration membrane treatment water reservoir (11-A); A nano or reverse osmosis membrane treatment water storage tank 11-B for storing the treated water filtered by the nano or reverse osmosis membrane 9-B and a nano or reverse osmosis membrane treatment water storage tank 11- And an ion exchange column 6 for ion-exchanging treatment water are successively provided in the membrane separation tank 8. A membrane boundary plate 103 is provided in the membrane separation tank 8 to form a concentration tank 117, At least one microfiltration or ultrafiltration membrane 102 is provided inside.

The present invention can preliminarily dispense the volume of highly enriched radioactive liquid waste that is drained when the radioactive liquid waste concentrated at a high concentration in the membrane separation tank (8) is drained. Thus, the concentrated waste liquid drying facility It provides an eco-friendly way to save energy by reducing the operating load of equipment.

That is, if the radioactive liquid waste disposal apparatus is stopped for draining the residual radioactive liquid waste after a certain period of operation, the microfiltration or ultrafiltration membrane 9-A is immersed in water and operated under vacuum, 8 will occupy more than 50% of the volume of the total membrane separation vessel 8, which is the height corresponding to the microfiltration or ultrafiltration membrane 9-A.

Therefore, in order to reduce the volume of the highly concentrated radioactive liquid waste to be drained, a membrane boundary plate 103 is installed in the membrane separation tank 8 to form a concentration tank 117, and microfiltration or ultrafiltration By installing the filtration separation membrane 102, microfiltration remaining in the membrane separation tank 8 or the radioactive liquid waste concentrated by the ultrafiltration separation membrane 9-A is introduced into the concentration tank 117 to perform microfiltration or ultrafiltration The radioactive liquid waste may be further filtered by the separation membrane 102 to reduce the volume of the radioactive liquid waste. At this time, when the volume of the thickening tank 117 to the total volume of the membrane separation tank 8 is 10: 5 to 10: 1, preferably 10: 3.5 to 10: 1.5, the volume of the highly concentrated liquid waste can be appropriately reduced have.

Further, the present invention is characterized in that the degreasing filter unit 101 is added to the front end of the membrane separation tank 8. When the oil removal filter device 101 is installed on the upstream side of the membrane separation tank 8, the oil component is removed before the radioactive liquid waste flows into the membrane separation tank 8, and the microfiltration or ultrafiltration membrane 9- Contamination can be prevented and the problem of reducing the treatment flow rate of the radioactive liquid waste can be solved.

The oil removal filter device 101 has a maximum use temperature of 170 캜 and a filtration range of 1 to 400 탆. It is also characterized by being made of polyester material. The oil removal filter device (101) is connected in series or in parallel with two or more in proportion to the treatment flow rate of the radioactive liquid waste, and removes the oil component by an atmospheric pressure filtration method or a pressure filtration method. The atmospheric pressure filtration system is equipped with a contact type water level sensor, and the pressure filtration system is equipped with a differential pressure gauge to determine the replacement point of the oil removal filter apparatus 101.

The apparatus for treating a waste liquid of the present invention is characterized in that at least one nano or reverse osmosis separator 113 is provided in addition to the nano or reverse osmosis separator 9-B. The nano or reverse osmosis membrane (113) may further include a nano or reverse osmosis membrane (9-B) in the waste liquid discharge path of the nano or reverse osmosis membrane (9-B) to reduce the waste liquid discharged from the nano- A nano or reverse osmosis separator 113 having a size smaller than that of the reverse osmosis separator 9-B is installed. That is, the present invention enables the waste liquid volume generated after the operation of the nano or reverse osmosis separator (9-B) of the apparatus for treating a waste liquid using a separation membrane to be preliminarily drained, Thereby providing an environmentally friendly method of saving energy by reducing the operation load of the processing facility.

The concentrated water not filtered by the nano or reverse osmosis membrane (9-B) is stored in a concentrated waste liquid drainage tank (116), and the stored concentrated water is filtered again by the nano or reverse osmosis separator (113) . Thus, by additionally providing one or more nano or reverse osmosis separation membranes 113, the volume of the concentrated water can be reduced by 70% or more as compared with the case where the radioactive liquid waste is treated with the conventional radioactive liquid waste disposal apparatus.

FIG. 2 shows an example of the apparatus for treating radioactive liquid waste according to the present invention. The method for treating radioactive liquid waste according to the present invention will be described below.

 (1) removing the oil component of the radioactive liquid waste with an oil removal filter device (101);

(2) filtering the radioactive liquid waste from which the oil component has been removed by microfiltration or ultrafiltration membrane (9-A), microfiltration or ultrafiltration membrane (9-A) and microfiltration or ultrafiltration membrane ;

(3) separating the treated water filtered in the step (2) into a nano or reverse osmosis membrane (9-B); And

(4) ion exchanging the treated water filtered in the step (3) in the ion exchange column 6 to obtain final treated water.

The present invention includes a step of reducing the volume of the concentrated radioactive liquid waste to be discarded in the membrane separation tank (8) after normal operation of the radioactive liquid waste disposal apparatus. That is, in order to transfer the concentrated water to the concentration tank 117, the separation membrane shutoff valve 105 is closed, the microfiltration or ultrafiltration separation membrane shutoff valve 106 is opened, the membrane separation tank water circulation pump 109 is operated, The unfiltered concentrated water remaining in the separating tank 8 is transferred to the concentration tank 117 and filtered through the microfiltration or ultrafiltration membrane 102 so that the treated water can be passed through the microfiltration or ultrafiltration membrane treatment water storage tank 11- And the remaining concentrated water is discharged.

The present invention also includes a step of reducing the volume of the concentrated radioactive liquid waste to be discarded from the nano or reverse osmosis membrane (9-B). That is, the separation membrane shut-off valve 118 is closed and the nano or reverse osmosis separation membrane shutoff valve 119 is opened to discharge waste concentrated water of the nano or reverse osmosis separation membrane 9-B into the concentrated waste water drainage tank 116, After the treatment with the nano or reverse osmosis membrane 113, the treated water is transferred to the nano or reverse osmosis membrane treated water storage tank 11-B, and the remaining concentrated water is discharged.

Accordingly, in the present invention, the radioactive liquid waste moves to the microfiltration or ultrafiltration membrane 102, the nano or reverse osmosis membrane 113, and thus the volume of final discharged radioactive liquid waste can be reduced.

Hereinafter, the present invention will be described in more detail by way of examples. Since these experimental examples are only for illustrating the present invention, the scope of the present invention is not limited to these experimental examples.

Experimental Example  1. Oil removal performance evaluation of the oil removal filter device (101)

The oil was poured into the degreasing filter unit 101 at a rate of 1840 g / hr to measure the amount of oil remaining unfiltered to evaluate the performance of the degreasing filter unit 101. Three times in total, it was confirmed that 91% of oil was removed on average.

Oil removal filter Bag removal performance result table Number of times Primary Secondary Third Average Oil Filtration Performance (%) Input oil weight (g / hr) 1840 1840 1840 91% Removed oil weight (g / hr) 1674 1692 1674

Experimental Example  2. Radioactive liquid waste treatment of nuclear power plants

The radioactive liquid waste treatment apparatus of the present invention (FIG. 2) was used to treat the radioactive liquid waste of a nuclear power plant. The radioactive liquid waste before treatment stored in the storage tank is measured for radioactivity and turbidity of the treated water filtered by the degreasing filter unit 101, the microfiltration or ultrafiltration membrane 102 and the nano or reverse osmosis membrane 113, Table 2 shows the results.

Nuclear power plant radioactive liquid waste treatment result Item Waste before treatment Oil removal
Number of filters processed Microfiltration or ultrafiltration membrane treatment Nano or reverse osmosis membrane treated water Total radioactivity
([Bq / m3]) 405000 370900 10500 Less than MDA Turbidity
(NTU) 29.4 2.3 0.11 0.03

The MDA (Minimum Detectable Activity) refers to the lower limit of detection.

Through the above-described results, it can be seen that the oil removal filter device 101, the microfiltration or ultrafiltration membrane 9-A, the microfiltration or ultrafiltration membrane 102, the nano or reverse osmosis membrane 9-B, It can be seen that the apparatus for treating radioactive liquid waste according to the present invention, which is processed in the order of the ion exchange column 113 and the ion exchange column 6, can also treat the radioactive liquid waste of the heavy water reactor type nuclear power plant.

1: Radioactive liquid waste
6: Ion exchange column
7: Final treatment number
8: membrane separation tank
9-A: Microfiltration or ultrafiltration membrane
9-B: Nano or reverse osmosis membrane
10-A: Microfiltration or ultrafiltration Membrane treated water
10-B: Nano or reverse osmosis membrane treated water
11-A: Microfiltration or ultrafiltration Membrane treated water storage tank
11-B: Nano or reverse osmosis membrane treated water storage tank
12-A: Supply number
12-B: Supply water
101: Oil removal filter device
102: microfiltration or ultrafiltration membrane
103: membrane separation boundary plate
104: Microfiltration or ultrafiltration membrane treatment water transfer piping
105: Membrane isolation valve
106: Microfiltration or ultrafiltration membrane shutoff valve
107: Membrane separation tank circulation pipe
108: membrane separation tank concentrated water suction piping
109: Membrane separation tank circulation pump
110: Membrane separation tank drainage pipe
111: Membrane concentrated water
112: Supply number of nano or reverse osmosis membrane
113: Nano or reverse osmosis membrane
114: Nano or reverse osmosis membrane treated water
115: Nano or reverse osmosis membrane concentrate
116: concentrated waste liquid drainage tank
117: Enrichment tank
118: Membrane isolation valve
119: Nano or reverse osmosis membrane shutoff valve

Claims (7)

A membrane separation tank 8 provided with a microfiltration or ultrafiltration membrane 9-A therein; A nano or reverse osmosis membrane (9-B); Wherein the membrane separation plate (103) is provided in the membrane separation tank (8) to form a concentration tank (117), and the membrane separation tank (8) (117) has at least one microfiltration or ultrafiltration membrane (102) therein,
The radioactive liquid waste concentrated by the microfiltration or ultrafiltration membrane 9-A remaining in the membrane separation tank 8 flows into the concentration tank 117 through the membrane separation tank water circulation pump 109,
In order to reduce the waste liquid of the nano or reverse osmosis membrane (9-B), the waste liquid discharge path of the nano or reverse osmosis membrane (9-B) Nano or reverse osmosis separation membrane (113). The apparatus for treating radioactive liquid waste according to claim 1, characterized in that the membrane separation tank (8) has an oil removal filter device (101) at its front end. The apparatus of claim 2, wherein the degassing filter apparatus (101) has a maximum operating temperature of 170 ° C and a filtration range of 1 to 400 μm. The apparatus of claim 2, wherein the degassing filter apparatus (101) is an atmospheric filtration system or a pressurized filtration system. The apparatus of claim 2, wherein the degreasing filter device (101) is connected in two or more serially or in parallel. [6] The apparatus of claim 4, wherein the atmospheric pressure filtration system includes a contact type water level sensor, and the pressure filtration system includes a differential pressure meter. delete

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