JPS6336144A - Method for measuring moisture in liquid - Google Patents

Abstract

PURPOSE:To exactly determine the moisture content in a liquid sample by destructing the liquid paraffin film of sodium hydride in a hermetic vessel by a solvent, then injecting the sample into the vessel and measuring the amt. of the generated gaseous hydrogen. CONSTITUTION:The liquid paraffin is added to >=60wt% powdery sodium hydride coated wit the liquid paraffin to prepare 15wt% sodium hydride soln. The prepd. soln. is injected into the vessel 2 contg. the solvent such as kerosene. An aperture 3 of the vessel 2 is closed by a plug 4 and while an impeller 12 is kept rotated, the sample liquid is injected by an injector 6 into the vessel. The water in the sample and the sodium hydride in the solvent react to generate the gaseous hydrogen which in turn pushes up the piston 9 of the injector 6; therefore, the amt. of the generated gaseous hydrogen is known. The moisture content in the sample is thus calculatable. The same result is obtd. as well by dropping a soluble capsule 22 contg. 60wt% powdery sodium hydride into the liquid mixture composed of the sample and solvent and measuring the amt. of the generated gaseous hydrogen with a pressure detector 26.

Description

[Detailed Description of the Invention] [Industrial Field of Application] The present invention is for measuring moisture mixed in liquids such as vehicle, marine or industrial lubricating oils, rust preventive oils, metal working oils, etc. This invention relates to a method for measuring moisture in a liquid.

[Prior art and its problems]

Generally, the permissible range of water mixed in industrial lubricating oil is O-0.5%, preferably within 0.1%. This is because if the moisture content exceeds 0.2%, even if you use electrostatic oil purification to charge and adsorb the dirt in the lubricating oil, electricity will leak through the water, making it difficult to remove the dirt. This is because it becomes

For this reason, a method for determining the moisture content in liquids, such as industrial lubricating oil, has been published for some time.
A method for determining moisture m11 in a liquid described in Japanese Patent No. 196 is known.

This product is sodium dihydrobis (2-meth4
Silt 4) Prepare a reagent bottle containing alumina-1, take oil sample 1 to be tested into a graduated syringe, and insert the tip of the syringe into the hole in the perforated stopper of the reagent bottle. The inside of the syringe and the inside of the reagent bottle are sealed from the outside, and the sample collected in the syringe is injected into the reagent, and the position of the bottom of the syringe piston is lifted by the generated water-based gas. The amount of gas generated is read from the sensor, and the amount of water in the oil is measured based on a detection line created in advance.

However, in such conventional methods, sodium dihydro-bis(2-methoxyethoxy)alumine 1, which reacts with moisture to generate hydrogen gas, is constantly exposed to the outside air, so the reagent bottle is There is a risk that it will react with moisture in the air, causing an error in the measurement results.Also, when storing this putrium dihydrobis(2-methoxyethoxy) aluminate, be careful not to react with moisture in the air. It was troublesome to store sodium dihydro-bis(2-methoxyethoxy)alumine 1, which must be stored under strict conditions to ensure good adhesion.

Furthermore, the reaction formula between 1-lium dihydrobis(2-methoxyethoxy)aluminate and water described in Moe is expressed as % formula %. According to this reaction formula, 2 to 1 mole of water
moles of hydrogen gas will be generated.

By the way, in products such as vehicle engine oil and marine engine oil, in which moisture in the air condenses and gets mixed in, a considerable proportion of moisture is present. In the measurement method using (methoxyethoxy)aluminate, depending on the amount of water mixed in, hydrogen gas may be generated in the reagent bottle and the piston may come off the syringe, making it impossible to measure the water content. There is also a risk.

[Object of the Invention] In view of the above-mentioned points, the present invention is to accurately and stably measure moisture in a liquid using thorium hydride (NaH), which has been conventionally used for moisture measurement. The purpose of the present invention is to provide a method for measuring moisture in a liquid that can be used to measure water content in a liquid.

[Summary of the invention]

In the present invention, sodium hydride coated with liquid paraffin and a solvent are put into a closed container, the liquid paraffin coating is destroyed by the solvent, and the ptrium hydride is exposed in the closed container. The test solution is injected to cause the water in the test solution to react with sodium hydride, and the content of water converted from Li1 of the hydrogen gas generated by this reaction is measured. In addition to reacting only with the moisture inside to perform accurate moisture measurements, the hydrogen gas generation ω is half that of conventional models, making it possible to measure with good stability even when a large amount of moisture is mixed. be.

[Embodiments of the invention]

The present invention will be explained below with reference to embodiments shown in the drawings.

FIG. 1 shows a first embodiment of a moisture measuring device 1 for carrying out the method for measuring moisture in a liquid according to the present invention.
ing. A plug 4 made of an elastic material is removably fitted into the upper opening 3 of the airtight container 2.
A vertical through hole 5 is bored in the. and,
A small diameter portion 8 formed at the tip of the main body 7 of the syringe 6 is airtightly inserted into the opening 5, and a screw that slides inside the main body 7 is provided on the circumferential surface of the main body 7. A plurality of scale lines 10 are engraved for detecting the moving position of the distal end surface 9A of the tips 1 to 9. The scale line 10 is composed of both a scale that indicates the volume of the reagent filled in the syringe 6 in CC, and a scale that indicates the volume of the generated hydrogen gas in weight percent and volume percent of water.

Further, a rotating shaft 11 whose lower end is connected to a magnetic material (not shown) is erected at one end of the airtight container 2, and a plurality of stirring blades 12° 12...・is supported. On the other hand, a driving device β13 is disposed on the knife of the airtight container 2 so as to seat the airtight container 2, and this driving device 13 has a magnet (not shown) that attracts the magnetic material and makes it follow. We are prepared. Therefore, the stirring blade 12 is rotated by driving the driving device 13, and the liquid in the closed container 2 can be stirred.

Next, an example of a shellfish of a moisture measuring method using the moisture measuring device 1 described above will be described. This shell example is 15t
This is a case where the water content is measured using a solution of butrium hydride with a concentration of 100%.First, to make such an aqueous solution of butrium hydride, it is necessary to
A liquid paraffin solution is added to 0% by weight powdered sodium hydride to make a 15% by weight solution of sodium hydride.

On the other hand, when the test solution is 0.5% water-containing oil 2.5%, there is 0.0125m of water in this, but the reaction formula between sodium hydride and water is N a H + H20 → N
a OH+ H2↑, so 0.0125d
The length of 15% sodium hydride needed to react with water is 0.111m! ,bawl. Furthermore, when converted to the number of drops when feeding this 15% by weight sodium hydride into the closed container 2 using puree 1-, etc., it is 1 mQ.
is 44W4, so a minimum of 5 drops of sodium hydride is required.

Therefore, first remove the stopper 1 of the airtight container 2,
A sufficient amount of kerosene (solvent) is injected into the closed container 2 to destroy the coating of liquid paraffin that is dripped together with thorium hydride from the upper opening 3 of the closed container 2. Then,
Previous) Drop 7 drops of 15% by weight of hydrogen hydride into the closed container 2, which is more than the 5 drops. Then, the liquid paraffin film that covers the sodium hydride is destroyed by the kerosene solvent, exposing the sodium hydride, but since this sodium hydride is only exposed in the kerosene, there is no chance of separation between it and the moisture in the air. There is no risk of reaction occurring.

In the above state, the upper opening 3 of the airtight container 2 is closed with the stopper 4, and when the stirring blade 12 is rotated by the driving device 13 for one foot, the through hole 5 of the stopper 4 is inserted. Insert the small diameter part 8 of the syringe 6 into which 2.5 d of water-containing oil (sample solution) has been injected in advance, and push the screw 1-9 downward to transfer the sample solution in the syringe 6 into the sealed container 2. Drip into. Then, the water in this test solution rapidly reacts with the puttrium hydride in the kerosene due to the rotation of the stirring blade 12 to generate water-based gas. However, since the inside of the closed container 2 is isolated from the outside by the stopper 4 and the small diameter portion 8 of the syringe 6, the hydrogen gas generated inside the closed container 2 pushes up the screw 9 of the syringe 6.

Therefore, if you look at the time when the reaction between the water in the test solution and the hydrogenated hydrogen in the kerosene is completely completed, and read the scale line 10 that coincides with the tip surface 9A of the piston 9, you can see that the water in the test solution is The percentage of U people can be determined either as a small volume % or as a volume %.

According to the above-mentioned embodiment, since the hydrogenated hydrogen reacts only with water in the test solution, the amount of water in the test solution can be accurately measured. Furthermore, since only 1 mole of water string gas is generated per 1 mole of water, there is no risk of impossibility of measurement even if a large amount of water is contained. Also, 1 party stirring father-in-law 1
2 rotates to stir the kerosene, test solution, etc., so the reaction between sodium hydride and water occurs quickly, and the measurement time can be shortened.

In addition, in the above-mentioned example J3, it was explained that the powdered 60% by weight sodium hydride coated with liquid paraffin was further diluted with liquid paraffin to make it into a 15% by weight liquid. % may be put into the closed container 2 in powder form. Further, if this powdered sodium hydride having a weight of 60 φ is put into a soluble capsule and the capsule is put into the sealed container 2 as it is, handling is convenient.

FIG. 2 shows a moisture measuring device using the soluble capsule 22 containing the powdered butrium hydride described above! 721
An arm 23 is provided vertically on the lower surface of the stopper 4 which is removably fitted into the upper opening 3 of the airtight container 2 similar to that shown in FIG. A capsule placement plate 24 is provided protruding from the upper end of the capsule placement plate 23. This capsule placement plate 24 extends 6 in a substantially horizontal direction, and a capsule placement plate 24 is provided at the tip of the capsule placement plate 24. Small rise 2 to prevent capsule 22 from falling from 24
5 are erected. Further, a pressure detector 26 such as a pressure gauge or a micro pressure detector (load cell) is attached to the lower surface of the plug body 4.

According to the above-described configuration, first, a predetermined value f7' is placed in the airtight container 2.
The sample solution h and kerosene are injected, and the opening 3 of the sealed container 2 is closed with the stopper 4 in which one soluble capsule 22 is placed on the capsule mounting plate 24.Then, the sealed container 2 is tilted and the capsule is placed. The soluble f1 capsule 22 on the placing plate 24 is dropped into the liquid in the closed container 2. Then, the soluble capsule 22 covering the helium hydride dissolves (', I), and the liquid paraffin film covering the sodium hydride is destroyed by the kerosene, reacting with the water in the test solution. A water string gas is emitted. As a result, the internal pressure inside the closed container 2 rises, so if this internal pressure is measured by the pressure detector 26, this internal pressure can be converted and the water in the sample liquid can be mixed. The ratio can be determined.<r 13 It is also possible to arrange the stirring blade 12 that is rotationally driven by the drive device 13 in the closed container 2 of this embodiment.

In addition, in the first embodiment described above, it was explained that kerosene was first mixed into the sealed container 2, and then the sodium hydroxide was dripped into the sealed container 2. The thorium hydride may be dropped into the tank first, and then the kerosene may be poured into the tank, or the thorium to be hydrogenated and the kerosene may be added at the same time. Furthermore, in both Examples described above, kerosene, which has a relatively high safety barrier, was used as the solvent, but if it destroys the liquid paraffin film covering the sodium hydride,
← [Several solvents can be used.

[Effects of the Invention] As explained above, according to the present invention, it is possible to measure moisture in a liquid accurately and with good stability, and it is also possible to measure the moisture in a liquid with a high moisture content. It has a great effect.

[Brief explanation of the drawing]

FIGS. 1 and 2 are front views showing a first embodiment and a second embodiment of a moisture measuring device, respectively, for carrying out the method for measuring moisture in liquid according to the present invention. 1.21...moisture measuring device, 2...closed'fg device,
4... Stopper body, 6... Syringe, 7... Main body, 9...
・Piston, 10... Scale line, 11... Rotating axis, 1
2... Stirring blade, 13... Drive device, 22... Soluble capsule, 24... Capsule mounting plate, 26... Pressure detector. Applicant: Shunsuke Nakao Figure 1 Figure 2

Claims (1)

[Claims] 1) Sodium hydride coated with liquid paraffin and a solvent are placed in a sealed container, the liquid paraffin coating is destroyed by the solvent to expose the sodium hydride in the sealed container, and the liquid paraffin is sealed. A method for measuring moisture in a liquid, characterized by injecting a test solution into a container, causing the moisture in the test solution to react with sodium hydride, and measuring the moisture content calculated from the amount of hydrogen gas generated by this reaction. . 2) The method for measuring moisture in a liquid according to claim 1, wherein the sodium hydride coated with liquid paraffin is a powder containing 60% by weight of sodium hydride. 3) The method for measuring moisture in a liquid according to claim 2, wherein the powder is housed in a soluble capsule. 4) The method for measuring moisture in a liquid according to any one of claims 1 to 3, wherein the moisture content is measured by a pressure detector facing inside a closed container. 5) The method for measuring moisture in a liquid according to claim 4, wherein the pressure detector is a pressure gauge. 6) The method for measuring moisture in a liquid according to claim 4, wherein the pressure detector is a minute pressure detector. 7) The method for measuring moisture in a liquid according to claim 1, wherein the sodium hydride coated with liquid paraffin is a liquid containing 15% by weight of sodium hydride. 8) The method for measuring moisture in a liquid according to claim 1 or 7, wherein the moisture content is measured by moving a piston of a syringe attached to a closed container. 9) The method for measuring moisture in a liquid according to any one of claims 1 to 8, wherein the solvent is kerosene. 10) The method for measuring moisture in a liquid according to any one of claims 1 to 9, wherein a stirring blade rotated by a magnet is disposed in the closed container.