DE611444C - Overheater with radiation and contact heating surface for partial chamber boiler - Google Patents

Description

Superheater with radiant and contact heating surface for partial chamber boilers To achieve even overheating at different load levels it is necessary and known per se to use superheaters that consist of radiant and contact heating surfaces. In the types known for partial chamber boilers these superheaters are especially the pipe connections of the two superheater heating surfaces to be described as very cumbersome, confusing and expensive, because of the radiant heating surface in the combustion chamber and the contact heating surface mostly between boiler tube groups or are arranged at all behind the boiler heating surface. The execution of these connecting pipelines, which are not in contact with fire, requires flange connections for pipes large dimensions; which in themselves are expensive and substantial. Need space, as well but offer the possibility of leakage.

The invention is intended to avoid these disadvantages by that the steam flow through the superheater heater without special external Pipelines takes place, despite the fact that the entire superheater heating surface is radiant and contact heating surface extends over various locations on the boiler heating surface. While it is for different types of boiler, z. B. Boiler with forced circulation or steep tube boiler, it has already been proposed to insert the tubes of the radiation superheater directly into the To transfer tubes of the contact superheater, so to use tube coils that have no external connections and flanges and are heated over their entire length are, is now such a superheater in a peculiar way by the invention created for the usual design of the partial chamber boiler. This execution is made possible through the use of sub-chambers carrying superheated steam, which are located between the sub-chambers for the boiler tubes are evenly distributed across the boiler width and as fire-contacting connecting lines between radiant and contact superheaters to serve.

In the drawing, this arrangement is with a partial chamber boiler Carbon dew-firing shown. Fig. I is a section through the boiler, Fig.2 a section along line A-B of Fig. i and Fig. 3 is a section along line C-D of Fig. 2.

The drum i is withdrawn through tubes 2 of the saturated steam and the Front partial chambers 3 at the top, evenly distributed over the entire width of the boiler, to first use the superheater coils of the contact superheater q. to the rear Partial chambers 5 to flow. Special superheater headers of large diameter across the entire boiler width are avoided by this arrangement, as is the case with overheating with its own combustion is known. The moderately superheated steam flows through it then the straight connecting pipes 6 between the partitions x accordingly - subdivided Partial chambers 3 and 5 to get out of the into the combustion chamber extended rear sub-chamber 5 into the individual superheater tubes of the radiant superheater heating surface 7 and to be brought here to the desired final hot steam temperature. The superheated steam is withdrawn from the collecting pipe 8 in the desired final state.

The connection line io provided in a known manner with shut-off valve ii enables the entire superheater system to be flushed through and filled with boiler water for protection when heating up. The steam that forms in the water-filled superheater can flow off to the steam space of the drum i.

The straight connecting pipes 6 between the sub-chambers 3 and 5 offer a particularly good cleaning option and are therefore suitable for the usual water injection suitable for controlling the superheated steam temperature. Which is not when using scale that may settle out of perfect water can come out of these pipes, which are just as easily accessible for internal cleaning as the boiler tubes, convenient removed.

Claims (1)

PATENT TO Sl'1ZIJC: superheater with radiant and contact heating surface for partial chamber boilers, characterized in that the tubes of the contact heating surface (4, 6) and the radiant heating surface (7) are rolled into partial chambers (3, 5) which are between the partial chambers for the Boiler tubes are evenly distributed over the boiler width and are designed and arranged in such a way that they serve as connecting elements in contact with the heating gas between the radiant and contact heating surfaces, avoiding connecting tubes.