DE515035C - Device to avoid harmful sludge deposits and thermal stresses when heating up and during operation in the lower drums of tubular steam boilers - Google Patents

Description

Device to avoid harmful sludge deposits and of thermal stresses when heating up and during operation in lower drums of Tubular steam boilers The present invention relates to a device in tubular steam boilers, especially radiant steam boilers to avoid harmful sludge deposits and thermal stresses in the lower drums heating up glue and during operation, whereby at least the most heavily loaded boiler pipes emit in the vapor space.

It is known that the performance of steam boilers is extraordinary can increase if you increase the radiant heating surfaces, so z. B. Radiation chambers used. Such high-performance boilers can only then reach the limit the performance possible at all will be burdened if one is above all at least lets the most heavily loaded boiler pipes expel in the steam room. The whole design Such a boiler also grants the great advantage that compared to earlier much shorter pickling times are required and that power fluctuations during of the operation can also be compensated much more quickly than in the past. These But advantages are also associated with disadvantages, and eliminating them is the purpose the invention. Namely because of the extraordinarily increased performance is the danger stronger. The amount of mud is greater than it used to be, and the water velocity is greater easily pulls the mud with it into the strongly heated pipes, where it sticks when good sludge drainage is not provided. In addition, call the shorter heating-up time as well as the performance, which can be changed quickly and within wide limits, if not special Precautions are taken in the lower drums and temperature differences Thermal stresses. This invention eliminates these disadvantages.

This is done by installing at least one sludge tank that can be blown down into the lower drum, one side of which leads right up to that drum location in which the riser pipes are rolled, the most heavily loaded pipes separating from the less burdened, and the other part trough-like in the Drum runs that between the sludge trough and the drum bottom a water supply channel for the most heavily loaded pipes. This facility grants the advantage that the lower drum not only when heating up, but also during operation remains tension-free, because the whole drum, but especially the drum base, is constantly flooded and the latter is so strong that there is no isolating sludge can settle. However, to a harmful sludge accumulation in other drum divider. to avoid is in the hollow a quiet zone for the Sludge deposition created, at which point even larger amounts of mud are harmless. The establishment further grants the advantage that the most heavily loaded pipes have their own water supply own, so the less loaded pipes - the water cannot tear away, while neither the accumulated sludge is sucked up nor this is caused by falling boiler pipe water, in the event of operating fluctuations, can be stirred up. The feed takes place at the same time lightly loaded pipes across the mud trough, whereby the mud to the prescribed deposit and settles.

In some cases it is beneficial to have the mud pan on its bottom to be provided with ribs, whereby any number of feed ducts burdened you hach Pipes are created. One can. So the feed z. B. the most heavily loaded pipes subdivide as desired, which improves circulation.

In the figures, an embodiment of the invention is shown, namely shows: Fig. i a cross section through a lower drum, Fig. a a longitudinal section through a bottom drum.

a 'is a bottom drum. c are fall, b are riser pipes, whose z. B. most heavily loaded in the steam chamber of the boiler and emit through the sludge pan d are delimited from the less polluted and from your channel between mud basins and drum ä are fed.

The arrows indicate the flow directions. You can see the feed the heavily loaded boiler pipes below and the feeding of the lightly loaded ones Pipes above the sludge trough, in the latter case the sludge in the trough d can settle.

The underside of the sludge trough d can be provided with ribs p to form channels e , as shown in Fig. Z.

Claims (1)

PATENT CLAIMS: ' i. Device for avoiding harmful sludge deposits and thermal stresses when heating up and during operation in the lower drums of tubular steam boilers, in particular radiant steam boilers, from the riser pipes of which at least the most heavily loaded emit in the steam space, characterized in that the lower drum is provided with at least one sludge trough (d), one side of which is brought up close to the point on the drum in which the riser pipes are rolled. separating the most heavily loaded pipes from less loaded pipes, and the other side of which ends at a distance in front of the opposite drum wall, so that the water inlet to the heavily loaded pipes from the space below the sludge trough, that of the lightly loaded pipes, on the other hand, takes place across the trough. a. Device according to claim i, characterized in that the sludge trough (d) on its underside, e.g. B. perpendicular to its longitudinal axis, ribs (p), through which any number of channels (e) for separate meals heavily loaded boiler tubes or groups of boiler tubes are formed.