DE431647C - Slag granulator for pulverized coal combustion, especially for steam boilers - Google Patents

Description

Slag granulator for pulverized coal firing, especially for steam boilers. The invention relates to slag granulators which are used in the case of coal dust for steam boilers have to convert the precipitating slag into sand form and the fed with cooling water by switching on the feed line of the steam boiler will.

According to the invention, the granulator bodies consist of stacked, partly closed, partly open pipes, d. H. from so-called field pipes, such as they are generally known for steam generation. When using Fieldrohr, -n for granulators, however, they are intended to be the opposite of their previous type of use no steam is generated, but they should act as a heat sink. At acquaintances Granulators have so far been limited to using simple tubular bodies and to drive the cooling water through it - n. The field pipe-like body allow, however, a regulation of the cooling temperature within wide limits, namely by simple B. measurement of the inner and outer flow path for the cooling water. The adaptation of the cooling effect to the various uses will be made expanded in that one the water flow in both directions can drive, in such a way that on the outer surface the approaching or to the heat sink the water that has already passed through the middle path moves, which is has already absorbed a certain amount of heat from the heated outside water.

The subject matter of the invention is illustrated in the drawing, for example.

Fig. I shows schematically how the granulator is switched into the feed line of the steam boiler.

Fig. 2 shows an embodiment in a longitudinal section through the Granulator body. Fig. 3 shows a similar section and on a larger scale another form of execution.

According to Fig. I, several individual granules are tubular in shape stored next to each other like a rust. The water supply line a opens into a common one Manifold b; the common discharge d leads directly to the pipe string d ' to a steam boiler.

Fig. 2 shows that the individual granulator element consists of two tubes inserted one inside the other consists of g and 1i; In this case, all tubes h are expediently connected to a common chamber lt 'and the pipes g attached to a common chamber g', and the two chambers releasably connected to each other at h, so that after the connection has been broken the inner tubes h can be pulled out for cleaning purposes, etc. Through the One can use the nested pipes when the water enters through the inner tube h takes place, choose the ring cross-section between h and g so small that a large flow velocity of the water in the ring cross-section and thus a relatively large or far-reaching cooling effect is created; in any case you have it in your hand, largely regulating the water temperature in this way to act on the outer pipe wall. Of course, the other way round can also be used Apply flow direction such that the incoming fresh water into the chamber g 'enters, so that the cooler water flows outside the tube h and it after the heating through the inside of the tube is withdrawn from the granulator. If steam formation within the granulator elements must be expected, then it is recommended to use either the chambers g 'or the rear closed ends to train the tubes g in a manner known per se so that they act as a steam collector act, in which case the resulting steam is connected to the steam chamber of the boiler Lines can pass directly into the boiler. Of course steam can be that arises in the granulators, also lead to other places and in of any kind.

According to Fig. 3, the chambers g 'and h' are housed in a single housing divided by a partition m. The tube g is in the outer housing opening, e.g. B. by rolling attached; the inner tube h, which can have guide or spacer ribs along its length to secure its position, is inserted with a conical ring o into the funnel-shaped bore in the partition wall in, the ring o of course being firmly seated on the tube h. The insertion opening p in the housing outer wall is closed by a double cover g in a manner known per se. A screw Y is passed through this cover, which acts against the closure cover s of the pipe lt, thus holding the cover in its position and pushing the pipe lt with the conical ring o into its seat in the wall. Openings i are made in the tube lt in order to bring its interior into communication with the chamber h '.

In this embodiment, external seals are used for high pressures are unsuitable, avoided, so that leaks are prevented. Each individual tube can be taken out and looked up for itself, there is only the cover q must be loosened in order to make the associated pipe accessible from the outside.

Claims (3)

PATENT CLAIMS: i. Slag granulator for pulverized coal firing, in particular in the case of steam boilers, characterized in that the granulator bodies made of nested, partly closed, partly open pipes (so-called field pipes) are formed through which the boiler feed water flows. 2. Slag granulator according to claim i, characterized in that the rack (g) and the pipes (It) are each attached to collecting chambers (g ', lt') which are releasably connected to each other. 3. Slag granulator according to claim i, characterized in that that the inner tube (h) with a conical ring (o) into a funnel opening of the chambers (g ', h'-) separating partition (m) inserted and through a through the outer Sealing cap (g) hindur, -h guided pressure screw (Y) held in its position will.