DE2932444B2 - Method for separating interfering components from a liquid and device for carrying out the method - Google Patents

Description

The invention relates to a method for separating interfering components from a liquid which contains organic components, the analytical determination of which is disrupted by the components to be separated, these being present as dissolved gases or being converted into the gaseous state by adding suitable substances and allowing the dissolved gases to pass through Passing an inert carrier gas, e.g. B. air, expelled from the liquid and fed to a separation device.
In technology and in laboratories this is often the case

ίο task made from a disturbing liquid Separate components that the intended further treatment process, for example an analytical Determination, disturb. If the interfering components are present as dissolved gases or in the gaseous Let the state be transferred, the separation can be carried out by the method described above a gas flow through the liquid. The gas components go into the gas flow above. If the gas stream containing the constituents to be separated is discarded, the result is Disadvantage that other volatile components that may be present in the liquid have also passed into the gas flow, are lost. The known method is also not applicable when the liquid consists of an easily evaporable compound.

From DE-OS 23 48 090 a Vei drive for the continuous transfer of in a liquid known dissolved gas components in a carrier gas,

so in the case of a carrier gas and the liquid sample continuously mixed in dosed quantities in a jointly flowed through space and then through a nozzle can be sprayed. The interfering gaseous component is transferred to the carrier gas, from which he z. B. is removed by absorption. This process is used to separate gas components from liquids in discontinuous batch operation can only be used with considerable effort.

The invention is based on the object of a method and a method suitable for carrying it out To train the device so that disruptive gas components in batch operation from liquid samples can be separated off without others having passed over from the liquid into the vapor state Components in a later treatment, e.g. B. an analytical determination, get lost.

The object is achieved on the basis of a method of the type described at the beginning according to the invention in such a way that the separation device into which the carrier gas containing the gaseous substances and the vaporized liquid is introduced is kept at a lower temperature than the liquid sample and on the surface the separation device, a part of the vapors and the troublesome gaseous components are precipitated, whereupon the carrier gas by means of a conveyor, for. B. a pump, is again passed through the liquid in the circuit.
If the interfering component in the liquid sample is a chloride, the invention provides for the chloride to be released in a manner known per se by adding sulfuric acid to the liquid sample and to use air as the carrier gas - re occurring heat tone is a temperature of about 30 to 60 ° and the temperature in the separation device is kept at about room temperature, so that the transferred hydrogen chloride gas

is deposited together with the condensed water vapor as hydrochloric acid.

The main difference between this procedure and the subject of DE-OS 23 48 090 is that in the known method a carrier gas and the liquid containing the interfering gas component jam through continuously be passed a space, wherein the gaseous constituent passes into the carrier gas. The separation of gas and liquid is carried out by spraying into a wide space from which the carrier gas (with the gaseous component) and the liquid are withdrawn separately. A circulation of the carrier gas is not provided.

In contrast, in the method according to the invention, a carrier gas is circulated through a Liquid sample and a separation device passed, which is kept at a lower temperature than the sample. This results in the separation of some of the vapors and the total interfering components expelled from the liquid sample by the carrier gas and which are deposited on the surface of the separator. The procedure enables thus the separation of disruptive gas components from liquid samples in batch operation, with others, z. B. organic constituents that are entrained when transferring the interfering gas component as a result the circulation of the carrier gas get back into the liquid sample and the analytical determination do not get lost.

There is a suitable device for carrying out the method with a separating device according to the invention from a bottle provided with a stopper for receiving the liquid sample, a a double tube inserted through the stopper and a tubular separating device closed at the bottom, the inner tube of the double tube connected to a pump almost to the bottom of the bottle is sufficient, while the outer tube which surrounds it, which is open at the bottom, in the space above the liquid level ends and the annular space formed by the two tubes with the tube closed at the bottom Separator is in connection, into which a flue pipe is inserted from above tightly, which is also connected to the Pump is in communication.

It has proven to be useful to pass through the inner pipe for the supply of the carrier gas and the exhaust pipe to connect detachable connections to the pump and to provide the annular space with a nozzle that is with a connecting piece of the separating device is also connected by a releasable connection.

On the drawing is an exemplary embodiment of the Invention shown. It is a device that is used, for example, in Batch operation to remove a chloride from a liquid sample, which in a later analytical process Determination of the organic components present in the sample would interfere.

ίο The device consists of a bottle 1 in which there is a liquid sample 2. This is first acidified with sulfuric acid to remove the chloride in the form of gaseous hydrogen chloride as a weaker acid. The bottle is with a plug 3 closed, through which a double tube is inserted, which extends from one to almost the Bottom of the bottle reaching inner tube 4 and an outer tube 5, which is above the liquid level the rehearsal ends. The outer tube is also shorter than the inner tube at its upper end; the upstairs too sealed annular space 6 between the tubes 4 and 5 is detachable via a connector 7 with the connector 8 of the Separating device connected, which consists of a tube 9 closed at the bottom. In the tube 9, which with a stopper 10 is closed, a discharge pipe 11 is inserted from above, which like the inner pipe 4 is detachably connected to a pump 12. At 13 are the connecting pieces between the tubes 4 and 10 and the pump and the nozzle 7 and 8 are designated.

The device works as follows:

The hydrogen chloride released by the addition of sulfuric acid and dissolved in the liquid sample is carried by the carrier gas introduced via the pump 12 and the inner tube 4, e.g. B. air, expelled from the liquid sample, which has a temperature of about 30 to 60 ⁰ C due to the heat riveting occurring during the reaction. The HCl gas first passes through the annular space 6 into the pipe 9 of the separation device, which is at a lower temperature, for example at room temperature. On the inner wall of the tube 9, the HCl gas separates out together with the condensed water vapor to form hydrochloric acid, which collects in the lower part of the tube 9, while the carrier gas is circulated back into the liquid sample via the exhaust pipe 11 and the pump 12 will. In this way, organic constituents that are entrained when the HCI gas is transferred get back into the liquid sample and are recorded during its analytical determination.

1 sheet of drawings

Claims (5)

Patent claims: 1. Process for separating interfering components from a liquid, the organic components contains, the analytical determination of which is disturbed by the components to be separated, whereby these exist as dissolved gases or by adding suitable substances to the gaseous state are transferable, and that dissolved gases by passing an inert carrier gas, for. B. air, out expelled from the liquid and fed to a separation device, characterized in that that the separation device in which the gaseous substances and the vaporized liquid containing carrier gas is introduced, is kept at a lower temperature than that Liquid sample and on the surface of the separation device a part of the vapors and the interfering gaseous components are deposited, whereupon the carrier gas by means of a Conveying device, for example a pump, is again passed through the liquid in the circuit. 2. The method according to claim 1, wherein the interfering component is a chloride, characterized in that the chloride is released by adding sulfuric acid to the aqueous liquid sample and air is used as the carrier gas, in the liquid sample due to the reaction with the sulfuric acid occurring heat tone is a temperature of about 30 to 60 ⁰ C and the temperature in the separation device is kept about room temperature, so that the transferred hydrogen chloride gas is separated out together with the condensed water vapor as hydrochloric acid. 3. Device for performing the method according to claims 1 and 2 with a separation device, characterized in that it consists of a bottle (1) provided with a stopper (3) for Receipt of the liquid sample (2), a double tube (4, 5) inserted through the stopper and a tubular separating device closed at the bottom, with a pump (12) connected inner tube (4) of the double tube extends almost to the bottom of the bottle, while the outer tube (5) surrounding it, which is open at the bottom, ends in the space above the liquid level, and that the annular space (6) formed by the two tubes with the tube (9) closed at the bottom the separation device is connected, into which a flue pipe (11) is inserted tightly from above, which is also connected to the pump (12). 4. Apparatus according to claim 3, characterized in that the inner tube (4) for supplying the Carrier gas and the exhaust pipe (11) are connected to the pump (12) by releasable connections (13) are. 5. Device according to claims 3 and 4, characterized in that the annular space (6) with a connecting piece (7) is provided which is connected to a connecting piece (8) of the separating device by a detachable Connection is connected.