DE574160C - Smoldering system heated by flue gas - Google Patents

Description

Smoke-gas-heated smoldering system In smoky-gas-heated smoldering systems the drying zone cannot be separated properly from the smoldering zone. For example to dry the smoldering material flue gases used for indirect heating, then it is extremely difficult in the zone in question, where the transition from drying to Smoldering takes place to achieve an appropriate temperature control. is namely the drying of the smoldering product has not yet taken place to the desired degree, the intermediate zone in question would either have to be increased by increasing the amount of heating gas or hot gas temperature can be used for drying. Can be separated make such a scheme poorly, so that apart from an increase in the amount of gas for drying at the same time an undesirable increase in temperature with a. occurs. As a result of this temperature increase, at least on the inlet side the Drying gases the smoldering material is excessively heated, so that smoldering gases are already in the drying zone be eliminated.

In order to avoid that too large a quantity of tar-containing vapors in the tar extraction plant must be directed and with it the accumulation of smolder water Is undesirably large, it is proposed according to the invention, to the last indirect Drying of the smoldering product in the border zone between drying and smoldering steam (Exhaust steam or vapors from the first drying chambers) with such a temperature to use that a smoldering in this zone is avoided.

During the continuous drying of the goods with flue gases The disadvantage shown cannot occur during the final drying with steam, since the Steam temperature does not depend on the amount, but only on the pressure of the steam. If the drying is too little, the amount of steam is reduced by operating the appropriate valves enlarged. However, since the pressure of the steam remains the same, its temperature also remains consistently the same. When drying with steam, the same applies Temperature level, the entire heat of vaporization of the steam is available for drying.

In the drawing, for example, a smoldering system according to the invention is shown illustrated in vertical section.

It is assumed that the smoldering material slides past heated surfaces in a steady stream. These surfaces are heated by flue gases in chambers d, b, c, e, f , and the example shown is indirect heating. The amount and the inlet temperature of the flue gases in the chambers e and f are chosen so that the coal burns out well. Would emerging from the chamber e flue gases supplied to the chamber d, it could have in the chamber d the carbonization start because the outlet temperature of the flue gases from the Kammere is still well above ioo ° C and the moisture content of the coal has already reached a low value . In this case, the vapors would have to be fed to chamber d of the tar extraction system, so that a much larger amount of smoldering water would be produced.

According to the invention, therefore, the intermediate zone between the drying and smoldering process, that is to say chamber d in the illustrated example, by means of saturated steam heated by such a temperature that smoldering is avoided in any case becomes: As a result of the heat of evaporation of the heating steam, the heating surface temperature can be obtained in all parts of the chamber d at the same level, which is when heated would be impossible due to smoke gases. The vapors produced in chamber d can thus do not contain tar and are discharged into the open air, if. on heat utilization is waived.

The flue gases from chamber e are fed to chamber c. There the water content of the coal in this chamber c is still quite considerable, occurs, despite the fact that the flue gas temperature is still considerably above 100 ° C, no smoldering a. The flue gases are then released into the chambers. b and d fed until their warmth economically largely exploited and completely used to dry the coal is.

Claims (1)

PATENT CLAIM: Flue gas-heated smoldering system, characterized in that in the border zone between drying and smoldering for the last indirect drying of the smoldering material, steam (exhaust steam or vapors from the drying chambers) is used at such a temperature that no smoldering occurs in this border zone.