CS226673B1 - Steam boiler waste product conduit - Google Patents

Description

The invention relates to a flue gas duct in which it is provided to form its walls from all-metal gas-tight welded tubular walls.

In prior art steam boiler designs, flue gas ducts are predominantly based on the type of steam boiler. Another solution is for tower steam boilers, another for Greek boilers in the shape of the Greek letter "Pi" and another for steam boilers of the "BOX" type. In most cases, the flue gas ducts are formed from sheet metal ducts and, at higher flue gas temperatures, from all-metal, gas-tight welded pipe walls. Design and construction problems arise when there is a demand for the creation of a so-called. regulatory moves. Mostly, such strokes can only be created with GI-shaped steam boilers of the "Pi" type, and for tower-type and BOX-type steam boilers, such solutions are not known for a number of restrictive conditions and disadvantages, including: asymmetry, problems with hanging steam boiler and heating surfaces etc.

The above-mentioned drawbacks are eliminated by the flue gas duct according to the invention, which is characterized in that in the lower narrowed part of the flue gas duct is formed a hopper terminated by the inlet chambers of working medium, further by making cuts on the side walls side walls of spacing -t- are distributed alternately at an oblique angle to project planes at the project level, so that at the same time they create side walls of the extended flue channel, a partition, both with pipe spacing of -2t- and separate hanging pipes with a spacing of -4t-; likewise, the front and rear wall tubes are progressively obliquely obstructed at the project level to form the front and rear walls of the expanded flue gas duct with vertically extending -2t- pipes.

By extending the flue gas draft at the project level to a double cross-section ® by creating a partition and suspension pipes, the pipe heating surfaces of the steam preheater, the intermediate preheater and the water heater can be incorporated into the regulated flue gas ducts. The tube bundles are also transferred in a preferred manner by means of suspension tubes, partition walls and side walls through the suspension chambers and their suspension elements to the ceiling of the vinegar construction of the steam boiler. The advantage of the solution lies in the fact that it is completely symmetrical, devoid of thermal unevenness of its individual walls. By virtue of the fact that the suspension tubes form a free continuation of the side walls of the flue gas duct at every fourth spacing, it also carries its weight and the parts of the steam boiler undetachably connected thereto.

In the attached drawings, ob, r. 1 shows the location of the flue gas duct within a steam boiler. In FIG. 2 shows an embodiment of the flue gas duct with an extension of its upper part. In FIG. 3 is a cross-sectional view in section A-A of a narrowed portion of the flue gas channel, and FIG. 4 is a cross-sectional view in section B-B of the enlarged part of the flue gas channel.

The narrowed part of the flue gas duct 1 has a hopper 2 for the ash removal in the lower part. This is terminated by the inlet chambers 3 of the working medium. On the side walls of the narrowed part of the flue gas duct 4, grilles 5 are provided for the flue gas outlet from the flue gases 6. Its extension is converted in the upper part of the flue gas duct so that the side walls of the narrowed gas flue duct 4 form at the same time the walls 8 of the extended flue gas channel, the partition 9 and the suspension tubes 10 such that every second side wall tube 7 is introduced into the side walls 8 of the extended flue gas channel 7, whereby

Claims (2)

SUBJECT The flue gas channel of the steam boiler formed of all-metal gas-welded tubular walls and the tubes themselves, characterized in that a hopper (2) is formed in the lower narrowed part of the flue gas channel (1j) terminated by inlet chambers (3) of working medium. The flue grids (5) for the outlet of the flue gas 6 and the tubes (7j side shields of pitch -t- are at a given given height: alternately at an oblique angle, walls with a pipe pitch of -2t- are formed alternately. The pipe 10 is a straight continuation of the side walls of the narrowed portion of the flue gas duct 4 at a distance of -4t. The front wall 11 and no wall 12 of the expanded exhaust gas duct 13 are formed from the pipes. of the front wall 14 and the rear wall 15 of the narrowed flue gas duct 1, so that the from the selected angle, in the plane of the front and rear locks 11, 12 into the slopes until they reach a -2t-spacing. The tubes of all the walls of the expanded flue gas duct 13 as well as the suspension tubes 10 are connected to the collection chambers 16. The working medium is transferred from these suspension chambers 16 to the collection chamber 18 of the suspension tubes. boiler drum 20. The invention is advantageously applicable to fluidized bed steam boilers. Among the advantages not mentioned so far, it is possible to mention the low material intensity of the enlarged part of the flue gas channel. BACKGROUND OF THE INVENTION distributed to vertical planes so as to form side walls (8j of the extended flue gas channel), an intermediate wall (9) with pipe spacing of -2t- and separate suspension pipes (10) with spacing of -4t-, like the pipes of the front wall (11) and pipes the rear walls (12) are progressively obliquely obstructed at a given level and plane to form a front wall (14) and a rear wall (15) of the enlarged flue gas channel (13) with the spacing of vertically extending tubes -2t-.