DE207098C - Process for producing luminous gas by distilling hard coal and adding a cheaper gas to the hard coal gas. - Google Patents

Description

PATENT OFFICE.

PATENT LETTERING

- Ju 207098 CLASS 26 «. GROUP

HEINRICH KOPPERS in ESSEN, Ruhr.

Patented in the German Empire on March 6, 1908.

The normal luminous gas is a distillation product of very specific coals that are used in their localized occurrence in most cases from long distances must be obtained. Now it is often, as far as it is the calorific value or the other quality allows the coal gas to be mixed with water gas; a modern light gas facility exists

ίο therefore mostly in a union of a coal gas distillation and a water gas plant. Starting from this already existing use of two different gas generation plants within one company, the invention follows the guiding principle of using the widespread and therefore cheaper and often quicker to obtain newer fuels in connection with hard coal gas distillation. Such as lignite, brown coal, peat and similar substances do not produce any usable luminous gas in dry distillation: due to the high oxygen content of the starting material, a gas with a lot of CO ₂ , water and CO is produced; After cleaning, the carbonic acid content predominates so that normal use is excluded.

According to the invention, these younger fuels are evaluated in connection with a hard coal gas plant in such a way that these substances are degassed in a separate distillation plant and the gases obtained are passed through a coke generator after separating the water, tar and possibly hydrogen sulfide, where the carbonic acid is regenerated to carbon monoxide. Such a conversion of carbonic acid to carbon dioxide through contact with glowing coal is already known for the improvement of gases with a high concentration of carbonic acid. The gas thus obtained, which consists of CO, CH _i and H ₂ , is then mixed with coal gas in such a ratio that the requirements for luminosity and calorific value are still met. If the CO content is too high, the procedure is that after the distillation of the younger fuels with the 'condensation of the by-products, some carbonic acid is also separated out in some way; so the corresponding amount of CO falls after the reduction in the coal generator.

The following calculation example may further clarify the procedure:

An earthy brown coal yields 47.7 coke when distilled in percent by weight (with 11 percent ash), 2 tar, 0.35 ammonia (= 1.42 percent sulfate), 15.42 gas water, 0.82 Hydrogen sulfide, 33.67 gas of the following composition:

N ₂ = 3.55> H ₂ - 36; 25, CH ₄ - 17.07, SKW. = 1.66, CO = 16.92, CO ₂ = 24.56. (In relation to ι t starting material, this results in 365.5 cbm gas at o ° C. and 760 mm barometer level.)

If this gas is now cooled, freed from tar, NH ₃ and 5 H ₂ , in the hot-blown gas generator

ge.r regenerated, you get 464.5 cbm of gas with the following composition:

52 percent C 0, 1.3 percent SKW, 14.2 percent CH ₄ , 29.5 percent H ₂ , 3 percent 2V ₂ .

This gas is far more suitable than water gas, which is mixed with hard coal gas to become.

According to the guiding principle of the process, the gas companies then always have only one small one To procure some of the very best gas coals, while mainly the very cheap ones Process younger coals. The highest economic efficiency is then for such gas plants given, which are far from the deposits of the actual gas coals, but in their vicinity there are extensive deposits Own younger fuels. The gas works are therefore with cheaper production of the Gases are more independent in terms of their raw materials.

Claims (2)

Patent Claims: 1. Process for producing luminous gas by distilling hard coal and Adding a cheaper gas to the hard coal gas, characterized in that that younger fuels (lignite, lignite, peat) in a separate distillation plant degassed and the gases obtained after condensation to reduce the carbon dioxide in a known manner a coke generator, after which it is mixed with the coal gas will. 2. The method according to claim 1, characterized in that with the condensation Part of the carbonic acid is deposited in the distillation gases of the younger fuels to reduce the carbon oxide content of the finished gas.