DE737711C - Large water space boiler with flushing of heating surfaces through forced circulation of boiler water - Google Patents

Description

Shell boiler with flushing of heating surfaces through forced flow Recirculated boiler water has shell boilers compared to water tube boilers as is well known, essential advantages, especially large storage capacity in the case of sudden strong vapor tendency, undemanding treatment and operation, insensitivity compared to poorly cleaned feed water and low price.

However, if you want to work with higher pressures and especially achieved high performance. must be, the water tube boiler is the large capacity boiler, especially in terms of performance, superior.

Various ways have been suggested to increase the performance of the Increase bulk water boilers by allowing the natural circulation of the boiler contents promotes when the water is heated, for example by means of a one-sided flame tube arrangement, through cross pipe connections through the flame tube from the lower boiler part to the upper one, by accordingly. arranged guide surfaces and the like to achieve the formation of steam promoting the circulation of the water in the boiler, there is also the S. feed water inlet used.

Likewise, the idea is not new to accelerate the water circulation by that water from colder parts of the boiler was heated more strongly by a pump Surfaces of the boiler is performed. With two-flame tube boilers, you have a under and between the two flame tubes, between their front ends arranged axially. acting vane pump boiler water from the cooler part of the Boiler via a guide housing to a steam separator located above the flame tubes out and thereby an improvement of the purging of the front flame tube parts achieved.

It has also been suggested that under the deepest point of the Flame tube lying in the longitudinal direction of the spray tubes for the purpose of detaching the am lower flame tube part Loins, reducing heat transfer Steam bubbles direct jets of water or steam against the flame tube.

However, all of these measures can reduce the evaporation rate of the large @ vasserraumkessel do not come close to that of the water tube boilers because they are not enough, to bring about such great flow velocities along the heating surfaces as they do would be necessary for such high performance. At the moment the water roller kettles still have the two to four times the evaporation rate compared to the best flame tube boilers.

According to the invention, it has now been possible to use shell boilers To achieve evaporation capacities that match those of high-performance water tube boilers come very close.

The invention is based on the fact that at the deepest point of the shell boiler This intaken boiler water by means of a conveyor, circulation pump u. Like. Under pressure of one or a few atmospheres in the longitudinal direction of the Top of the flame tube lying pipes is fed, which optionally over Cross pipes the water from holes or nozzles against the top of the flame pipe let flow.

Instead of the spray pipes from the top of the flame tube along are performed, they can also be located at a lower point along the heating surface -be performed, with appropriate for guiding the water over the heating surface Baffles are arranged.

Two exemplary embodiments are illustrated schematically in the drawing.

Fig. I shows a vertical longitudinal section through a Flamnirolirkessel the first embodiment.

FIG. Z is a cross-section to FIG. I.

Fig.3 shows a second embodiment of a flame tube boiler in Longitudinal section. FIG. 4 is a cross section of FIG. 3.

In your embodiment according to Fig. I and z runs over the Flame tube a in its longitudinal direction a tube b into which a circulation pump c boiler water is pressed, which is withdrawn from the boiler at d. To the pipe b distribution pipes are connected, which are in a suitable 1? ntfernuiig from the Top of the flame tube are a and are curved so that they are of the shape adjust the flame tube.

These distribution pipes e are arranged at suitable intervals from one another and iii provided with bores or nozzles. the one from the raw = 7b under overpressure Let incoming water flow against the surface of the Flaminr obres a.

The jets of water directed at the most heated area of the boiler create a particularly favorable heat line. The one between the water jets The amount of water present is included in the flow and also promotes itself ilirc heat extraction from the flame tube wall. There will be a circulation of the in the boiler forced water located in the dyke or approximately the same evaporation power in shell boilers, as in water-tube boilers, while gl.eichw-ohl the above-mentioned advantages of the @rof. '@ - «water room boiler compared to the water boiler remain.

The same or similar effect as the individual water jets directed against the flame roller surface can also be achieved by a corresponding arrangement of guide plates according to FIGS. 3 and 1.

Here, two «water supply pipes U are arranged at a lower point, from which. through holes or nozzles the boiler water pressed by the 1: drain pump c emanates. This outflowing water is through. Baffles f, which the flame tube 4a reveal, in as good a flow as possible, erüliruüg with the flame tube a. held, so that a favorable heat transfer is also achieved here.

Claims (2)

PATENT CLAIMS: i. Shell boiler with flushing of heating surfaces by forced circulation of boiler water, characterized by pipes (b ') running in the longitudinal direction of the top of the flame tube. to which water withdrawn from a cooler point of the same boiler is supplied under pressure and which, if necessary via cross tubes (e), allow the water to flow from holes or nozzles against the top of the flame tube. 2. Shell boiler according to Claim i, characterized in that the one or those provided with injection openings Pipes (b) are guided along a low-lying point of the heating surface and to Guiding the water, which is compulsorily set in umlaut ', over the heating surface into the Boiler built-in baffles j) are located.