DE1009166B - Process for removing oxygen or hydrogen from mixtures of these gases with nitrogen or noble gases - Google Patents

Description

GERMAN

The invention relates to a method for removing oxygen or hydrogen from mixtures these gases with nitrogen or noble gases by adding approximately stoichiometric amounts of Hydrogen or oxygen and subsequent conversion of the oxygen with the hydrogen. Such Processes are known per se.

The method according to the invention differs from these known methods in that the reaction of the oxygen with the hydrogen takes place in two stages, the main ^{reaction 1 being} carried out in the first stage, the amount of hydrogen or oxygen to be added to the impure gas mixture according to the content of the the gas mixture leaving the first stage is regulated on the gas to be removed.

Any residual oxygen or hydrogen in the second stage of the conversion section Leaving gas mixture can be removed in a manner known per se in that the gas mixture is passed over a suitable absorption material, which is both in the oxidized and in the exist in a reduced state and easily absorb hydrogen or oxygen in these states can.

The greater part of both oxygen and hydrogen is removed in the conversion stages, so that after the transformation is complete there is only a small amount of one or the other Component remains. In addition, by setting the automatic control appropriately, this The excess can be controlled in such a way that oxygen and hydrogen occur alternately, so that the absorbent is automatically regenerated and remains usable indefinitely.

The first stage of the conversion section, in which the mass of hydrogen and oxygen converted to water can either be run in a burner if the amount of existing Impurity is large, or in the presence of a suitable catalyst for the reaction. The second stage is carried out in the presence of a catalyst. It would be possible to do this Purpose to use the absorbent material ■ which is needed to remove the last traces of Remove oxygen or hydrogen from the gas, provided that one can rely on that this material has a catalytic effect on the reaction between hydrogen and oxygen, so that then the second conversion stage and the final absorption process in a single one Operation can be summarized. This is achieved by combining the hydrogen with the Oxygen formed water can be removed from the purified process to remove oxygen

or hydrogen from mixtures
these gases with nitrogen or noble gases

Applicant:

The British Oxygen Company Limited,
London

Representative: Dipl.-Ing. R. Holzer, patent attorney,
Augsburg, Philippine-Welser-Str. 14th

Claimed priority:
Great Britain March 21, 1952

Thomas John Webster, London,
has been named as the inventor

Gas can be removed by any suitable known method.

The regulating device can comprise a suitable analyzer which is carried out immediately after the first conversion stage is arranged and arranged so that the same automatically and indirectly a device actuated which the addition of hydrogen or oxygen to the impure gas or gas mixture regulates. There z. B. where oxygen is produced from crude argon by decomposing atmospheric If air is to be removed, an oxygen analyzer can be used. There is also the greater part of the oxygen present is removed in the first stage of the conversion section, the needs Oxygen analyzer only responds to a small range of oxygen concentration, although the Oxygen concentration of the original impure gas can fluctuate within wide limits.

The method according to the invention can be designed in this way that it works fully automatically and continuously. Since, moreover, the addition of stoichiometric amount of hydrogen or oxygen to the original impure gas only by the concentration of the original impurity in the gas after the bulk of this Contamination removed in the first stage of the conversion section is regulated not necessary, the flow rate or the composition of the gas to be cleaned or the To determine the flow rate of the added hydrogen or oxygen. Nor is it necessary-

709 546/410

agile to keep any of the gases fed to the conversion section at constant pressure, provided, of course, that the gases are of sufficiently high pressure to cover the pressure drop through the To overcome cleaning system through.

In the second stage, a catalytic material can be used can be used, which can bind the excess of oxygen or hydrogen at the same time.

As a catalytic material, which is in the frame

works early both as a catalyst and as an absorbent.

If for the removal of low concentrations

which makes the adjustment of the controller 6 necessary. If in the gas entering stage 1 Oxygen and hydrogen are present in precise stoichiometric concentrations, then it's in the gas passing point 10 no longer contains oxygen or hydrogen; there is no need thus a further setting of the controller 6. Has the ίπι stage 1 entering gas a low. Excess of oxygen, then removes the absorbent in

of the present invention is suitable for use, step 2 is the same until the absorbent is completely oxidized, for example palladium can be used, whereupon at point 10 oxygen appears. The one that is cast down on platinum gauze. A mixture has been remedied as a suitable absorption material by adjusting the regulator 6, so that at point 7 one of copper and copper oxide has been found, while a smaller oxygen content or a larger water content has shown that a mixture of manganese oxide 15 material content , when it was previously received, is very well equated (MnO) and manganese peroxide (Mn ₃ O _4). Brings the new setting on controller 6

If there is an excess of hydrogen in the gas flowing into stage 1, then this becomes hydrogen by the oxidized absorbent in stage 2 completely

of either hydrogen or oxygen removed after 20, until the absorbent is completely removed Excretion of the bulk of the impurities has been reduced, whereupon at point 10 water is taken care of is, the sensitivity of the precursor needs to occur. This can be done immediately through the reenactment direction, which the addition of hydrogen or the regulator 6 can be remedied, so that at point 7 Oxygen regulates not to be so large that this results in a higher oxygen content or a lower one the concentrations of these gases in the mixture in terms of hydrogen content appear as one. before the a closer match with the stoichiometric adjustment. Will the capacity for Requirements are met. the removal of oxygen and hydrogen in the

The invention is now chosen appropriately large with reference to level 2, then needs to be described in more detail on the drawing. Adjustment of the regulator 6 only in a longer period of time Drawing shows schematically one form of the 30 spaces to be made. Because the addition of hydrogen Apparatus for use according to the present or oxygen only by the concentration, the Process., Namely for continuous, fully automatic in the stage 1 leaving gas contained Vermat Operation. impurities is regulated, it is not necessary to

There are two cleaning stages 1 and 2, the flow rate or the composition of the of which the former has a burner or a catalytic converter to be purified, or the flow rate of the gas or a combined burner and catalyst with added oxygen or hydrogen includes, which are capable of the main growth.

mass of the hydrogen flowing into the stage The sensitivity of the catalytic converter 7 on the one hand

and oxygen to form water with each other and the control device 6 on the other hand connect to. The second stage involves a catalyzer not being very large, since the added water sator, which is capable of the reaction between the substance and oxygen not exactly stoichiometric the first stage leaving hydrogen and Sauer- equal to the amount of oxygen or amount of hydrogen substance to complete what needs to be an absorption process contained in the contaminated gas connects to the last traces of oxygen or is, because any excess hydrogen or oxygen-hydrogen, the excess after complete elimination, the excess after the first stage of the process neither all of the oxygen or all that remains is eliminated in the second stage of the process Hydrogen is returned in the catalyzing section.

have remained to remove. Did that in step 2. Although the present invention in the above

also applied the effect, with particular reference to the one form of the reaction, absorbent between hydrogen and oxygen catalytically to 50 apparatus was described, namely such a affect, then eliminates the need for continuous, automatic operation, it is

but it goes without saying that the scope of the invention is in no way limited thereby.

Use of an additional catalyst in this stage. Hydrogen entering through pipe 3 or oxygen is added to the raw gas which enters stage 1 through pipeline 4. The amount of added hydrogen or oxygen is regulated by an automatic Valve 5, which is controlled by a regulator 6, which is connected to one in the outlet gas line 8 of level 1 arranged, oxygen-hydrogen analyzer 7 is connected. The partially purified gas flows through line 8 into the Stage 2, in which all the oxygen or hydrogen still remaining in the gas, as previously described is completely removed. The purified gas leaving stage 2 through pipeline 9 is analyzed at point 10 for oxygen and hydrogen. If after a certain period of operation the absorbent in stage 2 has been completely oxidized, oxygen occurs at point 10,

Claims (6)

Patent claims: 1. Process for removing oxygen or hydrogen from mixtures of these gases with Nitrogen or noble gases by adding approximately stoichiometric amounts of hydrogen or of oxygen and subsequent conversion of the oxygen with the hydrogen, characterized in that that the reaction of the oxygen with the hydrogen takes place in two stages, wherein in the first stage the main conversion is carried out, and that the amount of the impure Gas mixture to be added, hydrogen or oxygen according to the content of the first The gas mixture to be removed Gas is regulated. 2. The method according to claim 1, characterized in that said first stage of the conversion section takes place in a burner or in the presence of a catalyst for the conversion and that said the second stage of the conversion section takes place in the presence of such a catalyst. 3. The method according to claim 1 or 2, characterized in that any residual oxygen or hydrogen in the gas mixture leaving the second stage of the conversion section is removed in a manner known per se in that the gas mixture is passed over a suitable absorbent material, which is both in an oxidized as ¹ S also exist in a reduced state and in these states spawns hydrogen or oxygen can absorb. 4. The method according to claim 3, characterized in that the addition of hydrogen a ° or oxygen to the impure gas or gas mixture is controlled so that one in which the second stage of the conversion section letting gas alternately receives an excess of oxygen and hydrogen, whereby the The absorbent is automatically regenerated after oxidation. 5. Process according to claims 3 and 4, characterized in that in the second stage a catalytic material is used, which at the same time eliminates the excess of oxygen or Can bind hydrogen. 6. The method according to any one of the preceding claims, characterized in that the addition of hydrogen or oxygen to the impure gas or gas mixture is automatically regulated by means of a suitable analyzer which is arranged directly after the first stage of the conversion section and so on is designed that it automatically actuates a device for regulating the addition of hydrogen or oxygen. Considered publications:
German patent specification No. 295 572. 1 sheet of drawings © 70S 5 + 6/410 5.