JPS593337A - Apparatus for sampling sodium - Google Patents

Abstract

PURPOSE:To sample sodium in an uncontaminated state, by connecting a washing line which circulates washing sodium, to sampling lines which are connected to a sampling vessel. CONSTITUTION:A sampling vessel 8 is enclosed and supported in a tightly closed container 11, and the outlet end and the inlet end of the vessel 11 are attached to the ends of an outlet-side sampling line 3 and an inlet-side sampling line 2 by flanges 10 and 9, respectively. A circulating loop 18 for washing sodium constitutes a closed circuit which passes from a branching point 21 on the inlet-side sampling line 2 to a branching point 31 on the inlet-side sampling line 3 via a valve 22, an expansion tank 23, an electromagnetic pump 24, and valves 25, 26, 27 and 28. After the sampling lines 3 and 2, and the sampling vessel 8 are washed with the use of the loop 18, a sample of sodium to be analyzed is introduced into the sampling vessel 8, and solidified by quenching. Then the sample is subjected to analysis by cutting the vessel 8.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a sodium sampling device used in a metal sodium cooled fast breeder reactor plant or the like.

Generally, in order to safely operate a sodium metal cooled fast breeder reactor plant, it is necessary to control impurities in the coolant, thorium, to an appropriate level. Therefore, it is first necessary to take a sample of sodium and analyze it to accurately determine the concentration of impurities in the sodium. Conventional sodium sampling equipment attaches a sampling container that has been degreased and cleaned in advance to the sampling line, and purges the sodium sampled to clean and cover the inside of the sampling line and sampling container. . However, with this type of cleaning method, the humidity is as low as 250°C, so purging is not sufficient, and the sodium containing radionuclides is not flushed with an oxide film existing on the sampling line and the inside of the sampling container. Therefore, there is a risk that cesium in sodium may deposit excessively on pipes and container walls.

That is, there is a problem in that the sodium sample to be analyzed becomes contaminated, and as a result, the analytical values include errors.

This invention was made in view of the above circumstances, and it is possible to thoroughly clean the sampling line and sampling container before introducing the sodium sample to be collected into the sampling line, and therefore, the sodium sample to be analyzed can be thoroughly cleaned. The object of the present invention is to provide a sodium sampling device that does not cause sample contamination.

In response to this purpose, the sodium sampling device of the present invention connects a cleaning line having piping and a driving device for circulating cleaning sodium in the piping to a sampling line that can be connected to a sampling container via a switching valve. It is characterized by the fact that

Hereinafter, the details of this invention will be explained with reference to one embodiment.

In FIG. 1, reference numeral 1 denotes a sodium sampling device, and the sodium sampling device 1 is equipped with an inflow side sampling line 2 and an outflow side sampling line 3. The inflow side sampling line 2 is provided with a valve 4.5, and the outflow side sampling line 3 is provided with a valve 6.
．． 7 is provided.

Reference numeral 8 denotes a sampling container made of a U-shaped stainless steel pipe, and the inflow and outflow ends on both sides of the sampling container 8 are connected to the inflow side sampling line 2 by flanges 9 and 10.
, is attached to the end of the outflow side sampling line 3.

The sampling container 8 is hermetically held within a sealed container 11.

The sealed container 11 has a structure that can be divided into two by a flange 12. This sealed container 11 is used for sampling containers 8 and 1 to 1 during sampling operations to be described later.
It has the function of blocking the leaked I~lium from the external environment when it leaks. Sealed container 11
An electric heater 13 is arranged near the outer surface of the
This electric heater 13 is configured to be able to raise the temperature of the inflow side sampling line 2 and the outflow side sampling line 3 in the sealed container 11, which are housed in the sealed container 11, and the sampling container 8 to 450° C. or higher.

Further, the sealed container 11 is provided with an argon inlet 15 and an argon outlet 16. Argon is introduced into the sealed container 11 from this argon suction 1'' 13 to rapidly cool and solidify the sodium in the sampling container 8.
In addition, when heating the sampling container 8 with the electric heater 13, the argon outlet 16 is passed through the sealed container 11.
Expelled outside.

Reference numeral 18 denotes a washing sodium circulation loop, one end of which is connected between valves 4 and 5 of the inflow sampling line 2, and the other end connected to valve 6 of the outflow sampling line 3.
and valve 7. This cleaning sodium circulation route 118 is constructed in order from the branch point 21 of the inflow side sampling line 2 to the valve 22, the expansion tank 23, and the electromagnetic pump 2.
4, a closed circuit that passes through valves 25, 26, 27, and 28 and reaches a branch point 31 of the outflow sampling line 3 is formed in parallel with the sampling container 8.

A plugging meter 32 for monitoring impurity concentration, a bot 1-lap 33, and a cold trap 34 are connected to the cleaning sodium circulation roof 18.

The plugging meter 32 is equipped with a valve 35 on the inflow side and is connected to the sodium washing line 18 by bypassing the valve 25.

The hot trap 33 is also provided with valves 36 and 37 on the inflow and outflow sides, respectively, and is connected to the sodium wash line 18 by bypassing the °valve 26.

The cold trap 34 is provided with valves 38 and 39 on the inlet and outlet sides, and is connected to the washing sodium wf8 lou 118 by bypassing the valve 27. These Hora [-1
- The wrap 33 (containing zirconium) and the cold trap 34 contain l! Both traps 33 and 34 can be used depending on the elemental concentration.

Further, the electromagnetic pump 24 mentioned above is configured to circulate sodium through the cleaning sodium circulation loop 118 by its operation.

Next, the procedure of sampling operation in the sodium sampling apparatus 1 having the above configuration will be explained.

Sampling operations are divided into sodium washing operations and collection operations.

As a sodium cleaning operation, first, the sampling container 8 is attached to the inflow side sampling line 2 and the outflow side sampling line 3 via the flange 9.10, then the sealed container 11 is attached via the flange 12, and further,
An electric heater 13 is installed. Next, the electric heater 13 is turned on to heat the inflow side sampling line 2, the outflow side sampling line 3, and the sampling container 8 in the sealed container 11, and the washing sodium is heated to a predetermined temperature in a wet state. Activate the circulation loop 118.

When operating the putrium cleaning line 18, the first
As shown in the figure, valves 5.7.22.35.36.37.
27.28, and close valves 25.26.38.39, sampling container 8, inlet sampling line 2, valve 5, valve 22, expansion tank 23, electromagnetic pump 24.
, valve 35, plugging meter 32, valve 36, hot trap 33, valve 37, valve 27, valve 28, branch point 31, outflow sampling line 3, and sampling container 8. The cleaning sodium in the tank 23 is driven. Impurities from the circulating cleaning sodium are removed by the hot trap 33 and the sampling container 8 is cleaned, and when the cleaning is completed, a plug is sent to the plugging meter 32.
It can be detected by monitoring the degree of impurity. If cold trap 34 is used to capture impurities, valve 27 is closed and valves 38 and 39 are opened to incorporate cold trap 34 into the loop.The sampling operation then proceeds as follows. After cleaning the sampling line 2.3 and the sampling container 8 with the cleaning sodium, close the valve 22.28.]
- Disconnect the helium cleaning line 18 and open the valve 4.6 to form a sodium sampling line consisting of the inflow sampling line 2, the sampling line container 8 and the outflow sampling line 3, and collect 1 helium from the inflow side. It is introduced into the sampling container 8 from the sampling line 2 (in this case, the washing sodium remaining in the sampling container 8 is pushed out to the cooling system (not shown) via the outflow side sampling line 3), and then, The valve 5.7 is closed to stop the inflow of sodium, and argon gas is allowed to flow through the argon suction port 15 to rapidly cool the inside of the sealed container 11, thereby avoiding assimilation of the sampled sodium in the sampling container 8. Then flange 9.1
0 - disconnects the sampling container 8 from the sampling line. FIG. 2 shows the separated lean-pulling container 8, with the sampling container 8
Since both ends of the collected sodium solidified inside may oxidize during handling of the sampling container 8, the separated sampling container 8 should be brought into an inert gas atmosphere (not shown) such as a glove box. Leanbling container 8 is cut from a position not shown by line A-A, and only the remaining portion 41 from which the oxidized portion is removed is subjected to analysis.

As is clear from the above description, according to the present invention, the sampling line and the sampling container can be sufficiently cleaned before introducing the sodium sample to be collected into the 4 non-pull line, and therefore the sodium sample to be analyzed can be thoroughly cleaned. It is possible to obtain a sodium sampling device in which the sample is not contaminated.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram of the configuration of a sodium sampling device according to an embodiment of the present invention, and FIG. 2 is an explanatory cross-sectional diagram of a sampling container. 1...S]~Lium sampling device 2...Inflow side limp ring line 3...Outflow side sampling line 8...Sampling container 11...
Sealed container 12... Flange 13... Electric heater 15 Argon suction 11 16... Argon outlet 18... Sodium circulation loop for cleaning 23
... Inflation tank 24 ... Electromagnetic pump 32 ...
Plugging n! 33...Hot Trap 34...
・Cold [・Rap]

Claims (5)

[Claims] (1) Sodium rimbling, characterized in that a cleaning line having piping and a drive device that circulates and drives cleaning sodium in the piping is connected to a sampling line that can be connected to a sampling container via a switching valve. Device (2) The washing line is equipped with a cold trap or a hot trap for purifying the washing sodium.
Thorium sampling device described in section (3) The 1-liquid re-sampling device according to claim 1 or 2, wherein the drive device is an electromagnetic pump. (4) The sodium sampling device according to claim 1, 2, or 3, further comprising a heater capable of raising the temperature of the cleaning site when the cleaning device is operated. (5) The sodium sampling apparatus according to claims M1, 2, 3, and 4, characterized by comprising a cooler capable of cooling the sampling line and the sampling container.