DEB0001141MA - Procedure for the determination of carbon monoxide and hydrogen in gas mixtures - Google Patents

Description

BADISGlIE ANILBI & SODA FACTORY

I, G. Farbindustrie Aktiengesellschaft

"In dissolution"

Ludwigshafen a. Marriage in, December 14, 194-9

Process for the determination of julene oxide and hydrogen in gas mixtures.

LTm to be able to regulate the amount of oxygen or air required for combustion during combustion processes, something for the Economic efficiency of the combustion process is essential, one was previously dependent on the combustion gases obtained analyze au. These analytical procedures are usually very cumbersome and time-consuming. Do the regulation of the oxygen supply On the basis of the examination results received, a further examination is necessary to check the success.

The subject matter of the invention is a method which allows a content of carbon oxide or hydrogen to be determined simply and quickly in such combustion gases. The method consists in letting the gas mixture act on lead oxide in the heat, preferably at temperatures above 200 °, and using the change in color that occurs during the reduction of the yellow lead oxide as a sign of the presence of carbon oxide or hydrogen in the gas mixture. It is known that lead oxides such as PbO and Pb ^ O ^ can be reduced by reducing gases such as carbon and hydrogen; however, it could not be foreseen that this reaction would start with a sufficient amount of SaSe even at very low carbon oxide or hydrogen contents of the acting gas mixture, mn. the change in color of the lead oxide is the opposite

War of the gases mentioned can be recognized as Ir oma en, The temperature required for this is around 200 ° for hydrogen and around 200 ° for carbon oxide a little bit higher. Lead oxides, whose oxidation level goes beyond that of the yellow lead oxide PbO, also react in this way, but a little slower, since more sole oxide or hydrogen is required for their reduction; is the end product of heduction always the dark colored lead suboxide (PbgO). The speed at which the yellow lead oxide turns gray, the depth of color and the spread the change in color, e.g. on a metal sheet on which the lead oxide has been streaked, can be seen in addition to the qualitative determination also draw conclusions about the amount of reducing gases present. The presence of water vapor, nitrogen or carbon dioxide becomes the process does not prevent. Even the presence of a few percent oxygen does not have a disruptive effect. Pas reduced lead oxide can be easily regenerated by passing hot air over it.

In many cases, the supply of heat is unnecessary _s namely when the gases to be examined her have the required temperature for the display of their origin; this is the case, for example, with exhaust gases from chimneys and sewer pipes. In other cases, an electrically heatable metal plate or a metal spiral, for example, is used as a carrier for the indicating lead oxide, which is arranged in an externally heated glass or quartz tube through which the gas to be examined flows.

The method is not only suitable for conveniently removing the exhaust gases from stationary or mobile internal combustion engines or incinerator to check carbon oxide and hydrogen, but it can also be used, for example, to Locations emitting carbon oxide or hydrogen, e.g. on gas pipes, can be quickly identified or in order to react in the chemical industry.

tion gases containing carbon oxide or hydrogen.

Example 1,

Lead oxalate is applied to a sheet of iron and converted into yellow lead oxide by heating to 360 °. There, it's sheet iron is placed in a quartz tube that is heated from the outside to around 220 °. If you now conduct luminous gas through the tube, it is reduced the carbon oxide and hydrogen in the luminous gas turn yellow lead oxide into gray lead suboxide in the course of a few minutes.

Example 2.

The inner wall of the exhaust pipe of an internal combustion engine is covered with a layer of yellow lead oxide at the end of the drill provided »This turns gray-black as soon as the machine is operated with a" rich "mixture. The reduction and the through the color change that is caused is, as can be proven by gas analysis, due to the carbon oxide present in the exhaust gas (Wi rkt »

Example 3 »

A metal plate coated with yellow lead oxide and heated electrically to about 300 ° is placed in a mixture of 96 $ carbon dioxide and 4 $ hydrogen * Wake up for a few minutes the yellow lead oxide changed into gray lead suboxide. The plate is removed from the gas mixture and left in the air for a short time heated. The lead suboxide turns back into yellow lead oxide and the plate can again be used to detect hydrogen be used in such gas mixtures »

Claims (2)

Claims ^ 1) Method for determining Eohlenoxyü and Yfassstoff in gas mixtures, characterized in that the gas mixture is in the heat, preferably at temperatures above 200 °, on lead Oxide can act and the change in color that occurs when the lead oxide is reduced is a sign of the presence of Oxide of coal or hydrogen used as a gas mixture. 2) Device for carrying out the method according to claim 1, consisting of a heatable metal carrier, which is provided with a layer of yellow lead oxide, and a carrier receiving container through which the gas mixture to be examined flows. BAD IS CHE AIIIIIi- & SOM-I ¹ ABRIE