JPS6371696A - Concentrator for radioactive waste liquor - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Objective of the Invention] (Industrial Application Field) The present invention relates to a radioactive waste liquid concentrating device for a radioactive waste treatment system of a nuclear power plant, and particularly relates to a device for concentrating radioactive waste liquid in a radioactive waste treatment system of a nuclear power plant. In the case of easy water quality, the appearance of bubbles is related to a radioactive waste liquid concentrator that has the function of preventing upper liquid level fluctuations.

(Prior Art) A radioactive waste liquid concentrator is used in the radioactive waste treatment system of a nuclear power plant. The equipment configuration of the concentrator is shown in Figure 3.

In the figure, the code 1 is the concentrator of the concentrator, and the concentrator 1
A demister 3 is fixed above the liquid level 2 of the internal radioactive waste liquid, and a heating basket 4 is fixed below the liquid level 2. A radioactive waste liquid supply pipe 6 having a flow rate: A regulating valve 5 is connected to the lower part of the outside of the concentrator 1, and a steam pipe 7 for discharging radioactive waste liquid vapor is connected to the upper end of the concentrator 1. This steam pipe 7 is connected to a condenser 13. A heating steam supply pipe 8 and a return pipe 9 are connected to the heating basket 4 through the container of the concentrator 1 . Also, a liquid level transmitter 10 that measures the liquid level 20 of the radioactive waste liquid in the concentrator 1
Further, a flow rate instruction controller 11 is installed which adjusts the opening degree of the flow rate regulating valve 5 based on the detection signal of the liquid level transmitter 10 and controls the supply flow rate of radioactive waste liquid.

The operation of the radioactive waste liquid concentrator having such a configuration will be explained.

Radioactive waste liquid is transferred from a collection tank (not shown) to a transfer pump (
(not shown) to the concentrator 1 via a supply pipe 6. On the other hand, heating steam is supplied to the heating basket 4 from the supply pipe 8 and is discharged from the return pipe 9. The radioactive waste liquid is heated by the heating basket 4 in the concentrator 1 and is evaporated and concentrated.

The evaporated water becomes condensed water in the condenser 13. When evaporated, liquid level 2
decreases, and the liquid level transmitter 10 detects this. Based on this detection signal, the flow rate instruction controller 11 adjusts the opening degree of the flow rate regulating valve 5 in order to maintain a constant level of the liquid level 2 and to prevent an abnormal level drop, thereby controlling the supply flow rate of the radioactive waste liquid.

Further, the amount of heating steam supplied to the heating basket 4 is adjusted, the amount of generated steam is adjusted, and the level of the liquid level 2 is controlled. A concentrator consisting of such a measurement control system has a concentrator 1.
As long as the liquid level 2 inside is stable, highly reliable operation control is possible.

(Problems to be Solved by the Invention) The radioactive waste liquid processed by the concentrator is mixed with condensate generated at various locations in the nuclear power plant. In some cases, waste liquid of water quality that tends to generate bubbles, such as washing waste liquid, may be mixed in.

At this time, bubbles are generated in the concentrator 1, and the bubbles cause the liquid level transmitter 10 to detect an apparent level different from the true level of the liquid level 2. Especially when bubbles occur,
Apparent level indications may show rapid level fluctuations at time 0. Therefore, even if the concentrator is in a normal operating state, the operation control is performed at an apparent level due to the influence of the bubbles as described above, so that the concentrator may not operate normally. Further, due to the apparent rapid fluctuation in liquid level, the opening degree adjustment of the flow rate regulating valve 5 cannot follow, and stable operation cannot be performed. Moreover, when the generation of bubbles becomes intense, the water and air that should be separated by the demister 7 is not separated, but is guided to the condenser 13 in the form of bubbles, and crud is mixed into the condenser 13.

The present invention has been developed in view of these problems, and is based on a method in which radioactive waste liquid of water quality that tends to generate bubbles is supplied to a concentrator,
An object of the present invention is to provide a radioactive waste liquid concentrating device that can automatically eliminate bubbles even if bubbles are generated and can perform stable operation control.

[Structure of the invention]

(Means for solving the problem) In the radioactive waste liquid concentrator of the radioactive waste treatment system of a nuclear power plant, a spray header that sprays the liquid level is fixed above the liquid level of the radioactive waste liquid in the concentrator. , the spray header is characterized in that it is connected to a spray pipe installed with a valve.

(Function) According to the present invention, when bubbles are generated on the liquid surface in the concentrator, by opening the valve of the spray piping, spray water is supplied from the spray header, and the liquid surface is not sprayed. Ru. The bubbles that had formed on the liquid surface will then disappear. Therefore, a stable liquid level allows normal operation control.

(Example) The present invention will now be described in detail with reference to the drawings.

FIG. 1 shows a first embodiment of the present invention (1 configuration j;!, l
It is.

In the figure, reference numeral 1 denotes a concentrator, in which a demister 3 is fixed to the 1-blade portion of the liquid level 2 of the radioactive waste liquid, and a heating basket 4 is fixed to the lower part of the liquid level 2.

A heating steam supply pipe 8 and its return pipe 9 are connected to the heating basket 4 through the container of the concentrator 1 . At the lower part of the outside of the concentrator 1 is a radioactive waste liquid supply pipe 6.
is connected. A flow rate regulating valve 5 is disposed in the supply pipe 6 near the concentrator 1, and further downstream of the flow rate regulating valve 5, an air-operated valve 12 is disposed. A radioactive waste liquid evaporation pipe 7 is connected to the upper end of the concentrator 1, and this steam pipe 7 is connected to a condenser 13. A condensate discharge pipe 18 is connected to the condenser 13 . Further, a part of the detector is installed inside the concentrator 1, and a liquid level transmitter 10 for measuring the level of the liquid level 2 is installed near the concentrator 1.

A spray header 14 is fixed above the liquid level 2 in the concentrator 1 and above the demister 3. A spray pipe 15 branched from the supply pipe 6 between the flow rate regulating valve 5 and the air-operated valve 12 is connected to the spray header 14 . An air-operated valve 16 is installed in the spray pipe 15 on the downstream side of the branch point from the supply pipe 6. Furthermore, a flow command controller 17 is provided which outputs a control signal based on the detection signal of the liquid level transmitter 10, and the control signal is inputted to the air-operated valve 12, the air-operated valve 16, and the flow rate adjustment valve 5. Note that the flow rate instruction controller 17 controls the flow rate adjustment valve 5 and also controls the flow rate for a certain period of time (
It is set to output a control signal for switching the open/closed state of the air-operated valve 12.16 when a certain level fluctuation (for example, a 10% fluctuation in the fluid level) occurs within a period of, for example, 5 minutes.

Furthermore, after a certain period of time (for example, 2 minutes) has elapsed since outputting this control signal, the flow rate instruction controller 17 is set to output a control signal that switches the open/closed state of the air-operated valve 12.16 again and returns it to its original state. ing.

The operation of the embodiment of the present invention having such a configuration will be explained.

In normal operating conditions, the air-operated valve 12 is open and the air-operated valve 16 is closed. Therefore, the radioactive waste liquid is supplied to the concentrator 1 via the supply pipe 6, heated by the heating basket 4, evaporated, and concentrated. The evaporated waste liquid passes through the evaporation pipe 7, becomes condensed water in the condenser 13, and is transferred to another system via the condensate discharge pipe 18.

When laundry waste liquid or the like is supplied into the concentrator 1, bubbles are generated on the liquid surface 2. The liquid level oscillator 10 detects apparent liquid level fluctuations that occur rapidly in a short period of time due to the bubbles. This detection signal is input to the flow rate instruction controller 17, and when the set amount of change (10% liquid level fluctuation in 5 minutes) is reached, the air-operated valve 12 is changed from open to closed, and the air-operated valve 16 is changed from closed to open. Outputs a control signal for switching. Then, the radioactive waste liquid is supplied to the spray header 14 via the spray pipe 15 without passing through the supply pipe 6. Then, the liquid level 2 is sprayed from the spray nozzle of the spray header 14,
Bubbles generated on the liquid surface 2 are eliminated. When the set time (5 minutes) has elapsed from the start of this operation, the flow rate instruction controller 17 outputs a control signal to switch the air operated valve 12 from closed to open and the air operated valve 16 from open to closed, and normal operation is resumed. returned to the state.

If bubbles are generated in the concentrator 1 again after this operation is completed, the above-mentioned operation is repeated.

According to this embodiment, when air bubbles are generated on the liquid level 2 in the concentrator 1, the air-operated valves 12. 2 is sprayed. This spray eliminates air bubbles and returns the liquid level to a stable level. Also, spray operation can be repeated, so concentrator 1
It is possible to eliminate air bubbles every time they occur, and stable operation control is possible.

As a second embodiment, the spray pipe may be branched from the condensate discharge pipe of the condenser, as shown in FIG.

In FIG. 2, a spray pipe 19 is branched from the condensate discharge pipe 18 of the condenser 13 and connected to the spray nozzle 14. An air-operated valve 20 is installed in one of the spray pipes, and its opening and closing are controlled by the output signal of the flow rate instruction controller 17. The other configurations are the same as those in the first embodiment and are designated by the same reference numerals.

The waste liquid is evaporated in the concentrator 1 and guided to the condenser 13 via the evaporation pipe 7. The waste liquid vapor cooled in the condenser 13 is liquefied and becomes condensate, which is transferred from the condensate discharge pipe 18 to other systems. A part of this condensate flows through the spray pipe 10 to the spray nozzle 1 when the air-operated valve 20 is opened.
4 and spray liquid level 2. The contents of control by the flow rate instruction controller 17 of the flow rate regulating valve 5, the air-operated valve 12, and the air-operated valve 20 and the contents of the operations of other components are the same as in the first embodiment.

As described above, according to this embodiment, the liquid level 5 is sprayed by the condensate obtained in the condenser 13.

Since the condensate is condensed water obtained by cooling the waste liquid vapor generated in the concentrator 1, it does not contain impurities such as washing water or crud. Therefore, the effect of eliminating air bubbles is good, and the spray nozzle 14 is not clogged.

〔Effect of the invention〕

As described above, according to the present invention, even if air bubbles are generated in the concentrator, the air bubbles can be eliminated by spraying the liquid surface. Therefore, the liquid level transmitter can detect the true liquid level and can always perform normal operation control. Furthermore, since air bubbles can be eliminated, air bubbles do not enter the condenser, and contamination by crud can be prevented.

[Brief explanation of the drawing]

FIG. 1 is an equipment configuration diagram of a radioactive waste liquid concentrator that shows a first embodiment of the present invention, FIG. 2 is an equipment configuration diagram of a radioactive waste liquid concentrator that shows a second embodiment of the invention, and FIG. It is an equipment configuration diagram of a conventional concentration device. 1... Concentrator, 2... Liquid level, 3... Demister, 6
... Supply piping, 10... Liquid level transmitter, 12, 16.
20... Air operated valve, 13... Condenser, 14...
Spray header, 15.19...Spray piping, 17
... Flow is the instruction controller, 18... Condensate discharge piping.

Claims (1)

[Claims] 1. In a radioactive waste liquid concentrator in a radioactive waste treatment system of a nuclear power plant, a spray header is fixed above the liquid level of the radioactive waste liquid in the concentrator, and the spray header has a valve. A radioactive waste liquid concentrating device characterized in that it is connected to a spray pipe installed with a. 2. The radioactive waste liquid concentrating device according to claim 1, wherein the spray pipe is branched from the radioactive waste liquid supply pipe. 3. The radioactive waste liquid concentrating device according to claim 1, wherein the spray pipe is branched from the condensate discharge pipe of the condenser. 4. The radioactive waste liquid concentrating device according to claim 1, wherein the spray header is installed below the demister in the concentrator. 5. The radioactive waste liquid concentrating device according to claim 1, wherein the valve is an air-operated valve whose opening and closing are controlled by a detection signal of the liquid level of the radioactive waste liquid.