JP2002205790A - Transporting container for alkali metal dispersing element - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an alkali metal dispersing element container in which alkali metal dispersing element can be safely stored and transported without decomposition and further can be re-dispersed, and to provide a method of preserving and transporting the alkali metal dispersing element. SOLUTION: The purpose is to provide the alkali metal dispersing element transporting container for transporting the alkali metal dispersing element while it is hermetically sealed, which includes a stirring means comprising an ultrasonic wave generator outside the container. Another purpose is to provide a method of transporting the alkali metal dispersing element comprising steps of sealing the alkali metal dispersing element in the container which has been purged by an inert gas, moving the container to a desired place and re-dispersing alkali metal by the stirring means.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a container for transporting an alkali metal dispersion and a method for transporting the same, and more particularly, to an alkali metal dispersion in which an alkali metal such as sodium metal is uniformly dispersed in a hydrocarbon solvent. The present invention relates to an alkali metal dispersion transport container to be enclosed, and a method of transporting the alkali metal dispersion in a sealed state in the alkali metal dispersion transport container.

[0002]

2. Description of the Related Art In recent years, environmental pollution of organic halogen compounds such as polychlorinated biphenyl (PCB) contained in industrial waste has become a problem. As one of the detoxifying methods of these organic halogen compounds, a method of decomposing the organic halogen compound by reacting the organic halogen compound with an alkali metal is known (for example, JP-A-49-82570;
JP-A-59-20179, Journal of the Chemical Society of Japan (11)
pp. 1577-1582 (1978), JP-A-9-216
No. 838, Japanese Patent No. 2918542 and the like. ). Among them, the methods described in Japanese Patent Application Laid-Open No. 9-216838 and Japanese Patent No. 2918542,
This is a method using an alkali metal dispersion, which can easily and efficiently decompose an organic halogen compound.
Since the preparation of the alkali metal dispersion needs to be performed under an inert gas atmosphere and in a water-free condition, it is usually performed in a laboratory having appropriate facilities. On the other hand, it is necessary to perform a decomposition treatment using the transported alkali metal dispersion in a place where an organic halogen compound such as PCB is stored.

[0003] However, the alkali metal dispersion is extremely unstable with respect to oxygen and moisture in the air, and is partially deactivated by contact with outside air during transportation to a place where PCBs and the like are stored. There was a case. Therefore, it is necessary that the container for storing the alkali metal dispersion be one that shields the alkali metal dispersion from the outside air and seals it. In addition, the period from the preparation and transportation of the alkali metal dispersion to the actual use thereof usually takes one day to several months in many cases.
During that time, the alkali metal dispersion may become non-uniform due to settling. Therefore, a container of the alkali metal dispersion requires some agitation means, and it is common to rotate the agitation blade with a motor before use to re-agitate the container.
However, when the stirring blades and the motor vibrate during transportation, the seal portion is damaged, and if the sealing of the container is not maintained, the deterioration of the alkali metal dispersion due to the intrusion of outside air or other chemicals into the container or the like. In this case, a fire occurs in the motor portion, and other troubles occur due to leakage of the alkali metal dispersion from the seal portion. Further, since the conventional stirring means has a stirring section which comes into direct contact with the alkali metal dispersion, there is a problem that the alkali metal is contaminated or deteriorated by moisture or other substances attached to these stirring sections, and that these stirring sections are washed. There is a problem that it takes time and effort to
Further, when this cleaning is performed manually, there is a problem in terms of safety of workers.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and can safely store and transport and further redisperse an alkali metal dispersion without decomposition. An object of the present invention is to provide a container of an alkali metal dispersion and a method for storing and transporting the alkali metal dispersion. That is, an object of the present invention is an alkali metal dispersion transport container for transporting an alkali metal dispersion in a sealed state, wherein the container is provided with stirring means comprising an ultrasonic generator outside. It is to provide a dispersion transport container. Another object of the present invention is characterized in that an alkali metal dispersion is sealed in the container purged with an inert gas, the container is moved to a desired place, and the alkali metal is redispersed by the stirring means. The present invention provides a method for transporting an alkali metal dispersion. According to the present invention, the alkali metal dispersion can be safely stored and transported without being decomposed, and the transport of the alkali metal dispersion to another container after transport is not required. And subjected to a decomposition treatment of the organic halogen compound.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION As the alkali metal of the alkali metal dispersion of the present invention, for example, sodium, potassium,
Examples include lithium, cesium, and alloys thereof.
From the viewpoints of storability, transportability, redispersibility, and ability to decompose organic halogen compounds, 80% or more of the alkali metal has a particle size of 30 μm or less, preferably 1 μm or less.
It is preferable that the particles are alkali metal fine particles of 5 microns or less. In the present invention, the alkali metal is stored and transported in the form of a dispersion dispersed in a solvent. Examples of the solvent used for preparing the alkali metal dispersion include an aliphatic hydrocarbon or an aromatic hydrocarbon having a boiling point of 150 ° C. or higher, preferably 160 ° C. or higher. For example, kerosene,
Examples include electric insulating oil (electric insulating oil described in JIS C2320-1993), decalin, liquid paraffin, heavy oil, and mixtures thereof. Among them, it is particularly preferable to use an electric insulating oil in the present invention. The alkali metal dispersion of the present invention is obtained by dispersing the above alkali metal in such a solvent, and the concentration of the alkali metal in the solvent is 1 to 45% by weight, preferably 10 to 40% by weight.

[0006] The alkali metal dispersion can be prepared by a known method. For example, Inorganic Syntheses,
5, p6-10, "Sodium Dispersions", a method using a homogenizer described in JP-A-10-110205, and the like. Since the alkali metal sealed in the alkali metal dispersion transport container of the present invention is extremely susceptible to deterioration, it is only necessary to wash the alkali metal dispersion transport container before removing the alkali metal dispersion before filling the container with the alkali metal dispersion. Air must be completely exhausted and replaced (purged) with an inert gas. Usually, nitrogen gas is used as the inert gas, but a rare gas or the like may be used. The alkali metal dispersion transport container of the present invention is provided with a stirring means comprising an ultrasonic generator. Although there is no particular limitation on the ultrasonic generator used in the present invention, a sandwich type piezoelectric transducer driven by an electronic power supply is usually used. The output is preferably 20W to 10KW, and the frequency is 20W.
~ 50 KHz is preferred. This ultrasonic power transducer produces a sinusoidal wave of motion which acts on the alkali metal either directly at the load or through a resonant medium and disperses it in the medium.

Some examples of the alkali metal dispersion transport container of the present invention are shown in FIG. The size and shape of the alkali metal dispersion transporting container are not particularly limited as long as it can be sealed and can be transported. For example, FIGS. 1 (a) to 1 (c)
The shape may be a box, a cylinder, or an elliptical cylinder as shown in FIG. FIG. 1A shows an example in which the ultrasonic generator 1 is horizontally attached to a lower central portion of the outer wall 4 of the container.
(B) is an example in which the ultrasonic generator 1 is diagonally attached to the lower part of the container outer wall 4, and (c) is two ultrasonic generators 1 are mounted to the lower part of the container outer wall 4. It is an example. The ultrasonic generator 1 may be welded and attached to the container outer wall 4 as shown in FIGS. 1B and 1C, or may be detachably attached as shown in FIG. 1A. Is also good. The ultrasonic generator is preferably arranged so that the ultrasonic wave is applied to a portion where the alkali metal easily precipitates, and the position is usually the bottom portion of the container, depending on the shape of the container. The material of the container 3 is not particularly limited as long as it is a non-magnetic material and is a material that is stable to an alkali metal and an organic solvent. For example, stainless steel, fluorine resin, or the like is used. The container 3 can be hermetically sealed,
At the top of the container, an inlet 7 for an inert gas such as nitrogen, argon or helium and a separately prepared alkali metal dispersion must be attached, and at the bottom of the container, an outlet 6 for taking out the alkali metal dispersion must be provided. . Furthermore, the alkali metal dispersion transport container of the present invention needs to be transportable. For example, as shown in FIG. 1 (b), wheels may be attached to the lower part of the container so that the container can be transported.

[0008] When the alkali metal dispersion is actually stored and transported, the operation is performed, for example, in the following procedure.
(1) First, a desired alkali metal dispersion is prepared. The method for preparing the alkali metal dispersion is as described above.
(2) Next, water is completely removed from the inside of the container and completely replaced with an inert gas. (3) The prepared alkali metal dispersion is filled in a container. (4) Seal the container (make the container full of inert gas),
The organic halogen compound is transported to a predetermined place for decomposition treatment. (5) The alkali metal dispersion in the container is uniformly redispersed by operating the ultrasonic generator for a predetermined time according to the storage / transport time and the like. Since this operation time depends on the concentration and the liquid temperature of the alkali metal dispersion, it is preferably determined appropriately. (6) The alkali metal dispersion is taken out of the container and transferred to an organic halogen compound decomposing device to perform an organic halogen compound decomposing operation. As described above, the decomposition treatment of an organic halogen compound can be reliably and simply performed at a desired place such as a place where industrial waste is disposed.

[0009]

EXAMPLE An airtight container made of stainless steel (10 × 13 × 5.
5 cm) was prepared, and an ultrasonic cleaner (made by Maritime Electric Co., Ltd., output 38 KHz, maximum 45 W) was attached to the bottom, and the container was purged with nitrogen. 200 g of a 20% by weight alkali metal dispersion (SD) was prepared by dispersing metallic sodium having an average particle size of 30 μm in an electric insulating oil, and the container was filled to a depth of 2 cm from the bottom. 24 at room temperature
After standing for a while, the supernatant of this alkali metal dispersion was collected and its concentration was measured. In addition, the entire amount of SD was recovered from the bottom of the container, and its concentration and SD that was not recovered due to adhered to the container.
Was measured. In addition, after the alkali metal dispersion similarly prepared was allowed to stand at room temperature for 24 hours, the ultrasonic cleaner was operated for 5 minutes, 10 minutes, or 30 minutes to stir the SD,
The supernatant concentration of the SD immediately after stirring, the concentration of the effluent, and the amount of adhesion to the container were measured. Table 1 shows the results.

[Table 1] As can be seen from Table 1, when the alkali metal was settled and partially adhered to the container after standing for 24 hours, the alkali generator was operated for about 30 minutes by operating the ultrasonic generator of the alkali metal dispersion transport container of the present invention. It can be seen that the metal dispersion was properly redispersed and the amount of adhesion was reduced.

[0010]

Since the alkali metal dispersion transporting container of the present invention does not use a stirring means by a stirring blade driven by an external motor, which is generally used in the related art, factors which impair the hermeticity of the container such as damage to a seal portion. There is no possibility of deterioration of the alkali metal dispersion due to the invasion of outside air or other chemicals into the container, and no trouble caused by ignition at the motor part or other leakage of the alkali metal dispersion from the seal part. . Further, since all the stirring means are disposed outside the container and do not use any stirring means which comes into contact with the alkali metal dispersion which is easily deteriorated, there is no possibility of contamination or deterioration of the alkali metal by these means, and the stirring means is washed. You don't have to. In addition, the container itself has no agitation means inside, so the shape is simple, and the washing is also easy. That is, the alkali metal dispersion transport container of the present invention can safely store and transport the alkali metal dispersion without decomposing the alkali metal dispersion. Further, according to the present invention, the alkali metal compound is stored and transported to a place where the decomposition treatment of the organic halogen compound is desired, and is not uniformly dispersed again without being transferred to another container. Since it can be performed, it is preferable in terms of work efficiency.

[Brief description of the drawings]

FIG. 1 is a view showing some examples of an alkali metal dispersion transport container of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Ultrasonic generator 2 Movable pedestal to which ultrasonic generator was attached 3 Container 4 Container outer wall 5 Alkali metal dispersion (SD) 6 Outlet 7 Introducing section

Claims (2)

[Claims] An alkali metal dispersion transporting container for transporting an alkali metal dispersion in a sealed state, wherein the container is provided with stirring means comprising an ultrasonic generator outside. container. 2. The method according to claim 1, wherein the alkali metal dispersion is sealed in the container purged with an inert gas, the container is moved to a desired location, and the alkali metal is redispersed by the stirring means. A method for transporting an alkali metal dispersion, which is characterized in that: