DE384809C - Device for gas density measurement according to Bunsen - Google Patents

Description

Device for gas density measurement according to Bunsen. To determine the Numerous apparatuses built on the principle given by Bunsen are used for gas tightness. Here, the outflow time is the same volume of the examined gas and one Reference gas, for example air, measured under the same outflow conditions. To do this, either the outflow pressure was kept constant, but this was extremely complicated Apparatus results, or the gas was passed through a column of mercury with decreasing pressure drive out, which in turn is costly, takes up a lot of space and is fragile of the apparatus conditionally.

According to the invention, one works according to the Bunsen principle Apparatus created without the abuses mentioned, - by reducing the pressure one above the level of the sealing liquid (water, glycerine solution, mercury and the like) enclosed from the start in a vessel that is closed on all sides Amount of air, gas or steam is generated, so that with the gas flowing out through a nozzle the measurement or outflow time for the previously pressed in to be examined Gas can be done. By comparative measurement with a known reference gas, for example Air, or possibly by calibrating the nozzle, is then the density of the one to be examined Gases can be determined quickly and precisely.

The advantages of this apparatus are initially small space requirements and Protection against spillage of the completely enclosed liquid with consequent consequences good transportability and immediate operational readiness at Any location, for example on the trip for natural gas investigations on site and Job; there is the inclusion of the compressed gas despite the small size of the Al) -parates the possibility to carry out the measurement with a relatively high Pressure (on average about 1? "Atm.), And thereby the particularly high accuracy of the Measurement achieved.

In the embodiment shown, two are coaxially one inside the other arranged container i, 2 below by a tube with spherical extensions 3, 6 connected.

The container 2 is at the top by a three-way valve d. locked, on one side a junction 5 for connecting a rubber ball pump and on the other side has a nozzle 7 formed from a small opening in one very thin platinum sheet. Marks 8, 9 are provided above the balls 6, 3 to enable the precise reading of certain fluid levels.

All these parts are attached in a box, which is used for protection of the vessel made of glass and at the same time as a base for the apparatus serves.

The method of using the device is very simple. The one in the outer vessel The prevailing pressure holds when the inner container.2 is freely connected to the outside air the liquid in this container so that it almost completely fills it while the outer vessel i and the upper part of the ball 3 are free of liquid.

If the cock .I is now set so that the connection between the Container 2 and the junction 5 is made, and by means of a connected to this Rubber ball pump air or (read gas to be examined pressed into container 2, see above the liquid passes into the outer vessel i. Once the top half of the ball 6 is free of liquid, the tap 4. is switched to the nozzle 7 and by means of a stopwatch measures the time that elapses from the passage of one liquid surface at the first mark 8 up to the passage of the second liquid surface the second mark 9.Melting in place of marks 8 and 9 with platinum wire eyelets, the time measurement can be carried out automatically in a known manner by means of electrical current take place.

The above-mentioned pressure in the outer vessel i, which is used to drive up the liquid is required in the inner container 2 can be caused by the fact that before When the apparatus is in use, all the liquid is pressed over into the outer vessel and, moreover, a certain amount of air is blown in, so that after production the connection of the inner container 2 with the surrounding air, the two liquid surfaces adjust approximately in the manner shown in the drawing.

When carrying out experiments, care must be taken that neither air nor investigated gas get into the outer vessel i because the pressure during the experiment this would experience an indefinite change and with it the conditions would not be the same when making the comparative measurements. The balls 3, 6 and the double mark in front of and behind these extended pipe parts 8, 9 make this easy to do.

In order to obtain more accurate measurement results, the apparatus must measure the temperature accept his surroundings. Changes in the temperature in the apparatus itself are taken into account very clearly visible through differences in the liquid level in the ball 3 at the end of the experiment, d. H. if the exit in the inner container is not obstructed : 2 trapped gas in the surrounding air.

Claims (2)

PATENT CLAIMS: i. Device for gas density measurement according to Bunsen with decreasing pressure during the measurement, at which by the pressure of the gas pressed into the measuring space the barrier liquid is pressed out of that space into the collecting space receiving it, characterized in that in this space above the level of the barrier liquid a through there is a constant amount of air, gas or steam that is permanently closed off from the outside air and is compressed into the collecting chamber by the sealing liquid being pressed into the collecting chamber when the gas to be examined is pressed into the measuring chamber. 2. Device according to claim i, in which gas measuring chamber and sealing liquid collecting chamber are arranged one inside the other and are connected to each other below, characterized in that the Measuring vessel (2) is firmly connected to the collecting vessel (i) and in which to read the The connecting pipe used for the passage of the liquid between the two vessels (1,: 2) is enlarged Parts (3, 6) are provided that prevent gas from passing between the two vessels impede.