DE548507C - Process for the analysis of gases - Google Patents

Description

Method for the analysis of gases In the gas analysis, one works preferentially by two methods.

In the first method, a certain volume of the to be examined Gas passed through a liquid or a solid reactant, whereby the component whose amount is to be measured is either absorbed immediately or but is chemically changed so that a subsequent absorption of the reaction products can take place. The remaining volume is then used for measurement.

Examples The determination of carbonic acid by absorption in potassium hydroxide solution and the determination of hydrogen by passing it over heated copper oxide.

The main disadvantage of this method is that it consumes too quickly Reactant. The second method is a certain volume of the to be examined Gas is a measured amount of another gas that is associated with the constituent to be determined can enter into chemical interaction, admixed and the gas mixture obtained either by mere heating or by passing over a mostly heated one Catalyst brought to chemical reaction. This is followed by the absorption of the reaction products and before the measurement of the final volume, the removal of the excess additional gas by suitable liquid or solid absorbents. Example: Determination of flammable components in gases due to the admixture of excess air. This Air gas mixture is passed over a heated catalyst and the formed Carbonic acid absorbed in potassium hydroxide. Before: measuring the final volume, it is necessary to the excess oxygen by means of pyrogallol or another absorbent to remove again. A major disadvantage of this method is the absorption of the excess Make-up gas at the end of the analysis, increasing the size of the apparatus and reducing the margin of error is expanded.

The disadvantages of both methods become apparent in the method according to the invention avoided or reduced to a minimum.

A certain amount of the gas to be examined is measured out with the Volume of an additional gas that is converted into chemical with the constituent to be determined Interaction can occur, mixed, however, the amount of additional gas will be so chosen so that they do not lead to the chemical conversion of the constituent to be determined quite enough. Because the quantity to be determined of a component of a gas mixture practically fluctuates between certain limits, the amount to be added will be Gas selected according to the minimum amount of the constituent to be determined. That Gas mixture is now mixed with a liquid or a solid, possibly heated one Reactant passed, where the reaction takes place so that the additional gas supports the reaction and regenerates spent reactant. At the end of the analysis, there is an excess of the additive -not available and dated Reactant consumed only a very small part, so that the duration of action the same is significantly increased.

The determination of combustible components is given as an example in the coal gas. A measured volume of oxygen becomes a certain volume of luminous gas added, but the amount of oxygen added is insufficient to make up the total amount to oxidize on combustible components. The gas mixture is heated over heated copper oxide directed where the incineration takes place, mainly at the expense of the attached Oxygen and only to a fraction at the expense of copper oxide. The process can also be understood as meaning that the oxygen makes up most of the initially used copper oxide regenerated. The oxygen is therefore completely removed from the copper oxide bound.

The end gases are from the combustion products, in this case Carbon dioxide and water, released and the non-flammable exhaust gases measured.

If you choose the addition of oxygen so that only 1 percent of the combustible Burns components of the gas to be examined at the expense of the copper oxide, this results in an increase in the duration of the effect of a copper oxide filling by the Hundreds of times, which is a huge improvement on the previous method.

Another example is the determination of oxygen in air.

It is known to add oxygen over heated copper by oxidation determine. The process suffers from the rapid consumption of copper the process cannot be used for automatic analysis. But if you mix the gas mixture an additional gas is added, which removes most of the consumed or oxidized copper regenerated, the duration of action of a copper filling is significantly increased.

When determining "the oxygen in air, a measured volume of carbon oxide, for example, is added to a certain volume of air, but the amount of CO added is not sufficient to bind the entire amount of oxygen. The gas mixture is heated over copper where the combustion takes place, mainly at the expense of the added CO, which combines with the oxygen in the air to form CO @, and only to a fraction at the expense of the copper, which is oxidized to CuO.

The gas mixture is then freed from the combustion product carbonic acid and the residual gas - in this case nitrogen - used to operate the writing mechanism, which thus shows the oxygen content in the air.

Claims (1)

PATENT CLAIM: Method for analyzing gases by admixing them an additional gas and passing this mixture over a reactant, wherein the additional gas supports the reaction and regenerates the reactant, thereby characterized in that the volume of the additional gas is chosen so that it is at the end does not overshoot the analysis.