SU7502A1 - Method for producing hydrogen or nitric mixtures from hydrocarbons or gas mixtures - Google Patents

Description

As is known, hydrogen is obtained from hydrocarbons or mixtures containing them and water vapor, at temperatures above the dark red face, in the presence of nickel or nickel oxide, with proper refractory supports. This produces a lean or hydrocarbon-free gas from which, after the removal of carbon dioxide and carbon monoxide, hydrogen gas is obtained that is suitable for the catalytic production of ammonia. However, when performing this method, obtaining the required high temperatures is difficult and, mainly, when it is desirable to achieve the fullest possible conversion of hydrocarbons without using too large contact chambers.

According to the proposed method for producing hydrogen from hydrocarbons, gases containing hydrocarbons,

in this case, heated, burned with the necessary amount of oxygen without the supply of water vapor, according to the equation ZCHi + Oa 2 CO 4 4 H2; it is advisable to use a slightly larger amount of oxygen, but not sufficient for complete combustion. Gases during or directly after incomplete combustion are passed over a refractory material containing metals or oxides of the iron group, preferably nickel. If it is necessary to obtain mixtures of nitrogen and hydrogen to synthesize ammonia, air is added to the oxygen; with good preheating, only air is sufficient. The carbon monoxide gas mixture obtained by incomplete combustion, by passing it over the proper contacts in the hot state, usually after adding water or water vapor, is converted by a known method into a mixture of carbon dioxide and hydrogen, from which carbon dioxide is finally removed.

Example. 10 bulk parts of coke oven gas from methane are ignited in the combustion chamber in a mixture with three bulk parts of oxygen. Gases are passed immediately over the preheated contact of burnt magnesia, which has a small amount of nickel from the surface or the whole mass. The amount of water needed to cool to 600 ° is injected into a hot gas at 1200 ° to 1300 °, then the amount of water that is missing for the subsequent conversion is then added and the mixture is passed over the iron oxide catalyst, which converts water vapor and carbon monoxide into a mixture of carbon dioxide and hydrogen. The exhaust gases, after using their heat to vaporize and free them from carbon monoxide and carbon dioxide residues, are practically methane-free hydrogen. The heat of the waste gases can also serve to heat fresh gas, as well as oxygen or air, or both. In this case, a smaller amount of oxygen can be used to treat the gas mixture. Valuable substances such as benzene, ethylene, etc., can be preliminarily removed from the gas. Instead of burning gases in the chamber, it is possible to partially burn them directly at the surfaces of the refractory bodies on which the catalyst is located.

The subject of the patent.

Claims (2)

1. A method of producing hydrogen or nitric mixtures from hydrocarbons or gas mixtures containing hydrocarbons, characterized in that the latter, after adding a limited amount of oxygen or air, insufficient for complete combustion, ignite in the presence of contact substances or immediately before contact with such substances carbon dioxide-containing combustion gases, after proper cooling, are reacted with water vapor in a known manner and carbon dioxide formed is removed. 2. A method according to claim 1, characterized in that the cooling of the gases formed during incomplete combustion is caused by the injection of water.