DE2204332A1 - Arrangement for determining the amount of hydrogen in a mixture with other gaseous substances - Google Patents

Description

BALZEHS HOCHVAKUUM GMBH, Heinrlea-H «r1.z-3 £ r. $. E 6 Prankfurt / M

-2-032

Arrangement for determining the amount of hydrogen in a mixture with other gaseous substances.

The present invention relates to an arrangement for the precise determination of the amount of hydrogen in a mixture with other gaseous substances. The source from which the hydrogen to be determined comes can be of any type seirij a very common example is the so-called Vacuum hot extraction, in which the heated by a Determine the amount of hydrogen released by the sample in a vacuum furnace. In addition to hydrogen, there are others Gases are obtained, mainly nitrogen and carbon monoxide (which is produced by the reaction of the oxygen dissolved in the metal with carbon).

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An arrangement for determining the hydrogen content of metal samples is known, in which the samples are heated in a crucible under vacuum and the thermal conductivity of the gas mixture withdrawn from the furnace is measured and the amount of hydrogen is determined therefrom.
In this known method, an auxiliary gas is added to the gas to be examined before the thermal conductivity is measured until a certain total pressure is reached in the measuring chamber
the thermal conductivity and the total pressure the amount of hydrogen was determined. The known procedure has
but the disadvantage that the thermal conductivity of the auxiliary gas must be kept exactly constant, ie it must not change even with long series of measurements. This requirement is difficult to meet because it is known that the V / thermal conductivity can be strongly influenced by even minor impurities and also by the
Temperature depends. Small changes in the auxiliary gas composition and the room temperature can lead to measurement errors.

The present invention has set itself the task of providing an improved arrangement for determining the

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Specify hydrogen, in particular the invention continues aim to reduce the dependence on the composition of the Auxiliary gas and the room temperature.

The arrangement according to the invention for determining the amount of hydrogen in a mixture with other gaseous substances, consists of a gas-tight measuring chamber, which with a thermal conductivity sensor, with a lockable Feed for the gas mixture to be examined, with a lockable gas discharge and with a lockable one Supply line for an auxiliary gas, in which there is a gas-tight antechamber · with a second thermal conductivity sensor is located, is provided, and is characterized in that valves are arranged on the auxiliary gas supply line through which all connections between auxiliary gas source, Antechamber and measuring chamber can be shut off.

For a better understanding, two exemplary embodiments of the inventive arrangements and their use are described below the same explained in more detail with reference to the accompanying drawing.

The drawings (Figures 1 and 2) show in a schematic representation a measurement gas source 1, e.g. B. a vacuum furnace with a heatable crucible 2, in which the to be examined Sample 3 is heated and can be grounded, releasing gas, including hydrogen.

20983B / 07A3

The extracted gas is sucked out of the furnace by the pump 5 via the line h and conveyed into a measuring chamber 8 via the line 6, which can be shut off by the valve 7. Once the extraction of the gas is complete, is allowed into the metering chamber via line flow, for which the following means 9 is provided in the auxiliary gas ^e.

A reservoir 11 for the auxiliary gas is via a Line 12, which can be shut off by a valve Ij5,

connected to an antechamber 14. Piese stands over one

Line 16, which can be shut off by valve 15, is in connection with measuring chamber 8. In FIG. 1, the antechamber 14 and the valve 15 are connected directly to the connecting line between the storage container 11 and the measuring chamber 8, in Pig. 2, however, the antechamber lh and the valve 15 are located on a side branch of this connecting line.

For pumping out the antechamber and the measuring chamber and the lines connected to them before carrying out a hydrogen determination The line 17 is used with valve 18 and pump 19, which expels the pumped gas via line 20 into the open air.

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According to the invention, a V / conduction sensor 21 or 22 is arranged in the measuring chamber 8 as well as in the antechamber 14. These two heat conduction sensors are connected to the data processing device 25 via the Xabel connections 23 and 2h. This in turn is connected to the display instrument 26 and, if necessary, controls the valves IJ and 15 automatically via the control lines 27 and 28, respectively.

The arrangement described is used as follows: After the furnace and the two chambers 8 and T ¹ V have been evacuated by the pump 19, the valves 7 * 15 and 18 being open and the valve 15 being closed, the antechamber 14 is opposite by closing the valve 15 the measuring chamber is shut off, and the valve 18 is also closed again. The sample is then heated and the collected from their gas discharged by the pump $ in the measuring chamber. 8 When the extraction has ended, auxiliary gas is allowed to flow into the antechamber 14 and into the measuring chamber 8 by opening the corresponding valves. A gas is selected as the auxiliary gas whose thermal conductivity at the same pressures is as similar as possible to the thermal conductivity of the gas or gas mixture in the measuring chamber 8 in addition to hydrogen

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Nitrogen and carbon monoxide result, so you can for example Use carbon monoxide or nitrogen or air or a mixture of these gases as an auxiliary gas.

While the auxiliary gas flows into the antechamber and the boiler chamber, the thermal conductivity of the gas in the two chambers increases slowly as a result of the increase in gas density Valves interrupted as soon as a predetermined thermal conductivity is reached in one of the two chambers. The difference in heat conduction in the two chambers displayed after the antechamber and the measuring chamber have been shut off then represents an exact measure of the amount of hydrogen in the measuring chamber 9 indicated by the instrument 26. The opening and closing of the valves Γ5 and 15 can be controlled automatically, in which case the electromagnetically operated valves are provided, which can be connected to the data processing device 26, as indicated in the drawing.

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It was mentioned that the procedure described can be carried out in 2 different variants, depending on whether to use auxiliary gas until a predetermined value of heat conduction is reached in one or the other Chamber can flow in. In any case, the difference in thermal conductivity is an exact measure for that in the measuring chamber amount of hydrogen present.

Any heat conduction sensor can be used for the purpose of Invention can be used. The best known are the pirani gauge and the thermal cross. With the piranimanometer, "-ein thin wire or a wire coil is heated with the help of a heating current. The ohmic resistance of this wire is from depending on the temperature. If one maintains both the heating current and the temperature with a given measuring arrangement the surrounding wall constant, the resistance of the heating wire is only dependent on the thermal conductivity of the in the Chamber located gas dependent.

To measure the heat conduction by means of a thermocouple, a so-called thermal cross, which is, is usually used a thermocouple whose solder joint can be heated electrically at the same time, whereby the temperature, polygamy this assumes under the influence of the heating, depends on the heat conduction of the surrounding gas. If you stop at a given arrangement the heating current is constant, the temperature

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raturdi ff erence z \? i see the soldering point and the surrounding Wall only depends on the heat conductivity of the gas and can be measured immediately. The temperature of the wall does not need to be kept constant in this case to become.

Both when measuring with a pirani manometer and with Thermocouple, it is also possible to continuously regulate the heating current so that the temperature difference or the resistance of the heating wire do not change. The size of the heating current required for this is then also a measure for heat dissipation through the surrounding gas. Such The measuring method has compared to keeping the heating current constant the advantage that a higher temperature and thus a higher measuring accuracy can be achieved without that when the system is evacuated there is a risk of the filament burning through. The automatic regulation of the Heating current can easily be carried out electronically in both cases. It is beneficial in the measuring chamber and in to use thermal conduction sensors of the same type as the antechamber. One of the two sensors can also be used for control at the same time of the valves. Known circuits can be used to compare the heat conduction in the two chambers. When using Pirani measuring cells, these can be switched as branches of a resistance comparison bridge. if

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Using thermocouples as probes is easiest the difference in thermal forces measured directly. The arrangement is calibrated with known amounts of hydrogen; the instrument 26 can be provided with a scale which immediately shows the amount of hydrogen.

It should also be noted that it is useful to adjust the volume of the To keep antechamber small compared to the measuring chamber volume. To prevent gas from entering the measuring chamber It is to prevent the antechamber when the valve 15 is open expedient to provide the throttle point 31 for the gas flow. The speed is set through the further throttle point j52 the inflow of the auxiliary gas into the antechamber can be reduced in order to achieve greater accuracy when adjusting to get the heat conduction.

The progress achieved by the invention over the previous arrangement in which the auxiliary gas directly into the Allowed the measuring chamber to flow in until a certain total pressure was reached in it, and then without a comparison measurement a thermal conductivity measurement of the gas mixture was carried out with the auxiliary gas, can be seen in the following example be seen.

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With the earlier method, a certain change was made the room temperature, a drift of the measured value of $ 0.5 within 10 minutes with a medium spread of the individual measurements of $ 0.2 found. With the new Arrangement, on the other hand, with the same fluctuation in room temperature, the measured values only scatter around a constant mean value on average by _ + 0.18 #; a drift i.e. a continuous change in the mean value could not be determined at all.

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Claims (5)

PATENT CLAIMS Ii) arrangement for determining the amount of hydrogen in one Qeaisch bit other gaseous substances «consisting of a gas-tight measuring chamber with a thermal conductivity sensor, with a lockable feed for the Gas mixture to be examined, with a lockable gas outlet and bit of a lockable supply line for an auxiliary gas, in which there is a gas-tight antechamber with a «second thermal conductivity sensor, is provided» characterized in that that valves are arranged on the auxiliary gas supply line, through which all connections between auxiliary gas source, Antechamber and measuring chamber can be shut off. 2. Arrangement according to patent claim !, characterized in that a device JKUp automatically closes the valves after reaching a preselectable size of the thermal conductivity in the antechamber provided 1st. 209835/0743 22CK332 3. Arrangement according to Patontanpsruch 1, characterized in that that «a device for the automatic bottom of the valves after reaching w a preselectable quantity of the thermal conductivity in the Measuring chamber is provided. \ 4. Arrangement according to claim 1, characterized in that g e that a device is provided that one of the difference in heat conduction of the gas in the antechamber and in the measuring chamber indicates directly dependent variable. 5. Arrangement according to claim 1, characterized in that that similar heat conduction sensors are provided in the antechamber and in the measuring chamber are. ^{PR 7185 d} 209835/0743 Blank page