DE399632C - Regenerative air preheater - Google Patents

Description

Regenerative air preheater. Regenerative air preheaters are known at which contain a rain-absorbent mass-the impeller partly in exhaust gases and partly rotates in air or in gases to be preheated; being the exhaust gases and the air flow through the impeller.

The invention relates in particular to such preheaters, but can also be used on regenerative air preheaters of other types. The invention relates partly to arrangements for the production of a heat-transferring mass, the constituents such that the largest possible surfaces are obtained for the heat transfer between the relevant heat exchange means and the mass, and partly to a mass that is cheap and easy to process and with regard to its production is suitable for cleaning soot o.

I The invention essentially consists in the fact that the heat-transferring mass consists of bars or curved plates arranged crosswise, suitably made of metal, such as. B. iron, nickel, copper, brass o. The like., Depending on the nature of the means between which the heat transfer should take place ZD.

The invention is illustrated in the drawing, namely therein some embodiments of the regenerative mass and the arrangement of the same on a regenerative preheater are shown. Fig. I shows an impeller that belongs to a regenerative pen preheater and is composed of regenerative material. -, #. bb. : 2, 3-, 4, 5, 6 and 7 show embodiments of the regenerative mass.

According to Fig.:2, the mass consists of U-shaped bars a. These bars are riveted or welded together at all or some of the Kretizstellen, so that U-shaped bars form a latticework. By placing several such grids next to each other, like 1: -n # -Sb- '. 'i' - shown at b , channels are formed for the passage of the relevant agents. The bars a are arranged such that the channels are inclined to the Ströniungsrichtung of the gases directed to obtain (read through means for brought vertebrae. This gridworks can be suitably arranged in such a manner as shown in Fig. Is shown i at b, that certain rods parallel to one of the extending walls of the impeller. It could also be useful to direct certain bars to be arranged radially in the impeller; in this case, however, it would be difficult to fill the gaps in the peripheral parts of the mass. and in any case, the smaller space would be available for the regenerative wet.

In Fig. I at c it is indicated how bars of the latticework can be placed perpendicular to one of the radial walls c. In compartment f (Fig. I), certain bars of the latticework run parallel to the two surrounding, radial walls. The remaining compartments btell (-ii different forms to assign the latticework, which together form the regenerative mass.

If the regenerative preheater is used for the air preheater in such a way that the regenerative mass is partly in air, t "; e is relatively cold, and partly in exhaust gases that are hot, soot formation occurs on the surfaces of the impeller. Um To remove this soot formation, a sweeping device has been proposed, which is indicated at a in Fig. i, and consists of a tube provided with holes through which steam is blown in jets through the regulating mass of the impeller d moving past. The steam jets should naturally be very powerful, and it is also necessary that suitable channels are available to facilitate blowing in. If such latticeworks are used, which are shown, for example, in Fig . B. b the whole tray, whereby its effect is reduced. Therefore, each compartment is divided by partitions into smaller sheets waste as bervorgeht of FIG. 3. There is a h Git terwork according to Fig.:2, and i are intermediate sheets, and each lattice work forms a separate part from the rest of the lattice work. These sheets do not significantly reduce the area of the regenerating mass, but divide it into compartments suitable for sweeping.

Fig. 7 shows how a sheet metal plate j can be bent into contiguous, U-shaped bars which, by means of an arrangement cross, form channels suitable for sweeping. Fig. -1, 5 and 6 show how a sheet metal plate k, 1 or in can be bent to form flanges. If these sheet metal plates are arranged in such a way (let the flanges cross each other), suitable arrangements for such a regenerative material are also obtained, in which sweeping can easily be effected.

Above-mentioned groups of grids, e.g. B. in an impeller d (Fig. I) are easily exchangeable if they are unusable ', and such an exchange takes place in that the groups are lierausgenoininen parallel to the axis of rotation of the impeller.

Claims (2)

PATENT CLAIMS-i. Regenerative air, from \ -äriiier, characterized in that the regenerative mass consists of bars (a) or curved plates (j, l # " 1, -in) arranged crosswise. 2. Relgenerativluftvorwäriner according to claim i, characterized in that the regenerative mass consists of U-shaped rods (a) or plates (j, k, 1, in ') which are assembled in larger groups crosswise. 3. Regenerative air preheater according to claim i or 2, characterized. that the regenerative mass is divided into smaller groups (h) separated from one another by walls (i). 4. RegenerativItiftvorwärmer according to claim 3, which is rotatable, characterized in that the groups (h) separated from one another by walls (i) in compartments (b, e, f etc.) of the impeller (d) delimited by means of radial walls (c) are arranged. 5. RegenerativItiftvorwärmer according to claim 1, 3 or 4, characterized gekennzeichiiet, (let some of the rods (a) or plates (j, k, 1 "t; t) arranged parallel to an adjoining radialeil wall (c) in the impeller (d) are.