JPS6317195B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a radioactive waste liquid treatment device that performs volume reduction treatment on radioactive waste liquid, and particularly relates to an improvement in a waste liquid supply system that supplies radioactive waste liquid from a concentrated waste liquid supply tank to a volume reduction device. be.

BACKGROUND ART Conventionally, as a method for reducing the volume of radioactive waste fluid generated from nuclear power plants, a method of pulverizing concentrated waste fluid has been proposed. In this processing method,
After the radioactive waste liquid is concentrated in a concentrator, it is quantitatively supplied to a centrifugal thin film dryer, which is a volume reduction device, via a metering pump, where it is dried and powdered. However, the waste liquid concentrated in the concentrator contains a large amount of insoluble impurities such as sand, iron oxide, and even used resin, so if these impurities cause wear on the metering pump, the pump There were problems such as fluctuations in quantitative performance and impurities settling in the piping.

In addition, in some nuclear power plants, waste liquid concentrated in a concentrator is supplied in a fixed amount to a solidification evaporator, which is a volume reduction device, via a metering pump, and after being concentrated and reduced in volume, it is transferred to asphalt. However, this method also has the same problems as the above-mentioned pulverization treatment when supplying the concentrated waste liquid.

An object of the present invention is to provide a highly reliable radioactive waste liquid treatment device that can eliminate the drawbacks of the prior art described above and can stably supply waste liquid over a long period of time.

In order to achieve the above object, the present invention provides a concentrated waste liquid supply tank that accommodates radioactive waste liquid containing highly concentrated insoluble impurities, a waste liquid volume reduction device that receives and reduces the volume of the waste liquid, and a system that connects the tank to the volume reduction device. In a radioactive waste liquid processing apparatus comprising a waste liquid transfer line for transferring waste liquid, the waste liquid transfer line connected to the tank is configured as a circulation line in which the waste liquid passing through the line returns again to the concentrated waste liquid supply tank, A waste liquid branch line branched from the above circulation line is connected to a volume reduction device, and an automatic waste liquid flow rate control device that compensates for the quantitative performance of the waste liquid metering supply pump is installed in this branch line, and the above circulation line is branched from the said line. It is characterized by being placed close to the position where the flow stirring action of the waste liquid sent to the volume reduction device via the line is not impaired.

The present invention will be explained below based on the embodiment shown in FIG. In Fig. 1, 1 is a concentrated waste liquid supply tank, 2 is a waste liquid transfer line connected to the tank 1, and a waste liquid circulation pump 3 is installed in the middle of the line 2. It constitutes a waste liquid circulation line in which the passing waste liquid returns to the concentrated waste liquid supply tank 1. Reference numeral 4 denotes a waste liquid branch line branched from the waste liquid circulation line 2 at a position above the tank 1, and this branch line 4 is connected to a centrifugal thin film dryer 5. Waste liquid branch line 4
A flow rate detector 6 is installed in the middle of the unit, and based on the flow rate value detected by the unit, the rotation speed of the metering pump 10 is determined via a transmitter 7, a flow rate indicator regulator 8, and a converter 9. and is configured to adjust and control the supply flow rate. In addition, in the present invention,
The waste liquid circulation line 2 is arranged close to the waste liquid circulating line 2 at a position where the fluid stirring action of the waste liquid sent from the line 2 to the centrifugal thin film dryer 5 via the branch line 4 is not impaired.

In the above configuration, radioactive waste liquid such as recycled waste liquid and floor drain generated from a nuclear power plant is concentrated in a concentrator and then transferred to the concentrated waste liquid supply tank 1. The concentrated waste liquid received in the tank 1 is recycled and agitated through the circulation line 2 via the pump 3. Therefore, the concentrated waste liquid flowing in line 2 agitates the waste liquid in tank 1. Also,
The flow effect of the concentrated waste liquid flowing in the line 2 is also effective in preventing insoluble impurities contained in the waste liquid from settling in the piping. Moreover, the line 2 is arranged close to the position where the flow stirring action of the waste liquid sent from the line 2 to the centrifugal thin film dryer 5 via the branch line 4 is not impaired. The concentrated waste liquid sent to the centrifugal thin film dryer 5 is also sent to the centrifugal thin film dryer 5 without causing insoluble impurities to settle in the pipe. However, the above branch line 4
During the process, the concentrated waste liquid is transferred to the metering pump 1.
0 to the centrifugal thin film dryer 5, and then dried and powdered in the centrifugal thin film dryer 5. The flow rate in line 4 is detected by a flow rate detector 6. Also, line 4
The flow rate is set in advance by the flow rate indicator controller 8, and when the flow rate changes, the transmitter 7,
Via the converter 9, the rotational speed of the metering pump 10 is automatically adjusted to control the flow rate.

Therefore, according to the present invention having the above configuration, the waste liquid circulation line 2 connected to the concentrated waste liquid supply tank 1 constitutes a circulation line in which the waste liquid passing through the line 2 returns to the tank 1 again. Ori,
Furthermore, the line 2 is arranged close to the waste liquid circulation line 2 and the branch line 4 so that the flow stirring action of the waste liquid sent from the line 2 to the centrifugal thin film dryer 5 via the branch line 4 is not impaired. In either case, the fluidized and agitated waste liquid can be smoothly transferred without causing insoluble impurities to settle in the piping. Moreover, according to the present invention having the above-mentioned configuration, if the metering pump 10 is worn out due to insoluble impurities in the concentrated waste liquid and its quantitative performance fluctuates, the transmitter 7 or the converter 9 will immediately notify Since feedback control is performed, quantitative performance of the pump 10 over a long period of time can be ensured. Note that if the waste liquid branch line 4 is sloped downward in the flow direction of the concentrated waste liquid passing through the line 4, when the waste liquid supply to the centrifugal thin film dryer 5 is stopped, the concentrated waste liquid in the piping will be removed. Retention can be effectively prevented.

FIG. 2 shows another embodiment of the invention. In the embodiment shown in FIG. 2, in the middle of the waste liquid circulation line 2,
A head tank 11 with an overflow line 12 is provided. That is, in this embodiment, the concentrated waste liquid is received in the concentrated waste liquid supply tank 1 and then transferred to the head tank 11 via the waste liquid circulation pump 3 and through the line 2. Since the overflow line 12 is connected, the head tank 1
The liquid level in 1 is always kept constant. In addition, the overflow line 12 is connected to the concentrated waste liquid supply tank 1.
, the concentrated waste liquid overflowing from the head tank 11 is recycled and stirred through the overflow line 12.

In the embodiment shown in FIG. 2, the concentrated waste liquid sent to the waste liquid branch line 4 is quantitatively supplied to the centrifugal thin film dryer 5 via the quantitative supply pump 10, similar to the embodiment shown in FIG. However, according to the embodiment shown in FIG. 2, the waste liquid is sent to the branch line 4 through the head tank 11, so the branch line 4 is not affected by pressure fluctuations in the waste liquid circulation line 2 section. . Therefore, the metering pump 10 used in this example
A pump with a clearance and a small shutoff performance is sufficient, and by having a clearance, wear caused by insoluble impurities in the concentrated waste liquid can be reduced, and the durability of the pump can be improved.

FIG. 3 is an explanatory diagram of the internal structure of a metering pump generally referred to as a rotary pump. This pump is composed of a casing 1 and two rotors 14 and 15 built into the casing 13. As the rotors 14 and 15 rotate, an air gap between the rotors 14 and 15 and the casing 13 is created. The fluid stored in the
7 side. This rotary pump has a clearance between the casing 13 and the rotors 14 and 15, but in the embodiment shown in FIG. 2, a pump with a clearance and small shutoff performance can be used. It is preferable to use it as the metering pump 10. In addition to the rotary pump described above, examples of the metering pump 10 suitable for use in the embodiment shown in FIG. 2 include, for example, a screw pump.

As described in detail above, according to the present invention, it is possible to smoothly transfer the fluidized and agitated waste liquid in both the waste liquid circulation line 2 and the branch line 4 without causing insoluble impurities to settle in the piping. However, if the quantitative supply pump 10 is worn out due to insoluble impurities in the concentrated waste liquid and its quantitative performance changes, the rotational speed of the pump 10 is adjusted to control the flow rate. It is possible to provide a highly reliable and improved radioactive waste liquid treatment device that can stably supply waste liquid.

[Brief explanation of the drawing]

Fig. 1 is a waste liquid treatment system diagram showing one embodiment of the present invention, Fig. 2 is a waste liquid treatment system diagram showing another embodiment of the present invention, and Fig. 3 is a diagram showing a waste liquid treatment system suitable for use in the embodiment of Fig. 2. FIG. 3 is an explanatory diagram of the internal structure of the metering pump. 1... Concentrated waste liquid supply tank, 2... Waste liquid circulation line, 3... Waste liquid circulation pump, 4... Waste liquid branch line, 5... Centrifugal thin film dryer, 6... Flow rate detector, 7... Transmitter, 8...Flow rate indicator regulator, 9...
...Converter, 10... Metering pump, 11... Head tank, 12... Overflow line, 1
3...Casing, 14 and 15...Rotor,
16...Suction port, 17...Discharge port.

Claims (1)

[Scope of Claims] 1. A concentrated waste liquid supply tank for accommodating radioactive waste liquid containing highly concentrated insoluble impurities;
In a radioactive waste liquid processing apparatus comprising a waste liquid volume reduction device for reducing the volume and a waste liquid transfer line for transferring the waste liquid from the tank to the volume reduction device, the waste liquid transfer line connected to the tank is passed through the line. This is a circulation line in which the waste liquid returns to the concentrated waste liquid supply tank, and a waste liquid branch line branched from the circulation line is connected to a volume reduction device, and this branch line is connected to a waste liquid flow rate that compensates for the quantitative performance of the waste liquid metering pump. Radioactive waste liquid treatment characterized by incorporating an automatic control device and arranging the circulation line in close proximity to a position where the fluid stirring action of the waste liquid sent from the line to the volume reduction device via a branch line is not impaired. Device. 2. The radioactive waste liquid treatment apparatus according to claim 1, wherein the concentrated waste liquid branch line has a downward slope in the flow direction of the waste liquid passing through the line.