DE1108371B - Regenerative air or gas preheater, the heat storage masses of which are arranged parallel to one another and can be moved across channels - Google Patents

Description

Regenerative air or gas preheater, its heat storage masses in parallel are arranged to be movable relative to one another and transversely through channels The invention relates to a regenerative air or gas preheater, whose heat storage masses alternate the exhaust gas flow for heat absorption and the air or air to be preheated for heat emission Gas flow can be exposed by placing two or more storage masses parallel to each other and across the two leading the heat-emitting and the heat-absorbing agent Channels are arranged to be movable, so that each one of the storage masses in the one and the other is in the other channel.

Regenerative heat exchangers, in which by means of a movable Heat storage mass absorbed heat from an exhaust gas flow and the heated heat storage mass be brought into an air or gas stream, which then in the heat storage mass absorbs stored heat to preheat it are known. So there are z. B. rotatable regenerative heat exchangers, in which one with the heat storage mass filled rotatable drum in sections the exhaust gases for heat storage and is exposed to the flow of the agent to be heated.

Regenerative heat exchangers have also become known in which the storage masses parallel to each other and across the two the heat-emitting and channels leading to the heat absorbing agent are arranged so as to be movable that in each case one of the storage masses in one channel and the other in the other located. The storage mass is formed by iron rods or rod stacks.

In relation to this acquaintance, the invention consists in that the storage masses are housed in containers, which in the flow direction of the exhaust gas and the to be preheated agent have permeable walls, and that the container with rollers are provided that run on designed as guide rails cooling tubes, and that the cooling tubes cross both channels.

The invention creates a regenerative air and gas preheater, the one with a mechanically simple structure and mounting option a relatively large heat storage mass in a small space, even for difficult operating conditions, can be used especially for exposure to very hot exhaust gases. Clogging due to dust, difficult mobility or getting the device stuck, which otherwise due to possible warping of rods or other components of such devices could occur are now avoided. In order to achieve the largest heat storage masses in the smallest of spaces accommodate, according to the invention, several containers in each of the two, the heat-emitting and the heat-absorbing agent leading channels arranged one below the other be. Here there is the possibility of the containers arranged in this way in one special rhythm in the channels to proceed so that the heat transfer from the heat-emitting agent takes place evenly on the heat-absorbing agent, z. B. in such a way that the preheating agent always with an approximately constant Temperature occurs at a predetermined level.

It can be advantageous to use the cooling tubes carrying the container as to form a pipe coil and to use boiler water as coolant, the Waste heat boilers is taken, the z. B. can be arranged in the channels.

As a further advantage of the regenerative air system designed according to the invention and gas preheater is to be seen that it is possible to completely remove the container from the channels to be able to extend and the same against other, similar containers with fresh Exchange heat storage masses. This is particularly beneficial in order to reduce the regenerative air or gas preheater according to the invention, especially in the case of exhaust gases with a high concentration of dust to apply. In each case when the flow resistance of the container as a result of clogging of the storage mass packing by the contained in the exhaust gases Dust has increased excessively by simply replacing it of added container against another, filled with fresh storage masses Container, the flow resistance has been reduced to the normal level again. Another The advantage is that, if it is dust, it can be recovered it is desirable to have this dust easily removed from the extended containers is.

When arranging waste heat boilers in the ducts, the Regenerative air or gas preheater according to the invention also advantageously Influence on the waste heat boiler or on the air or gas preheating through a corresponding one Change of the shift intervals of the container can be made.

The drawing represents an embodiment of the subject matter of Invention. It shows Fig.l a cross section through the two the heat-emitting and channels carrying heat absorbing means and FIG. 2 shows a section along the line II-II in Fig. 1. In addition to the exhaust gas leading channel 1 is the heat-absorbing Central channel 2 arranged. The two channels 1 and 2 share a partition 3 has an opening 4, whereby the chamber 5 is formed. In this chamber 5 are the transversely to the axis of the channels 1 and 2 displaceable container 6 arranged. the Ceiling 7 and floor 8 are gas-permeable, for. B. by perforation od. Like., Formed. The interior of the container 6 is filled with the storage mass 9. In the chamber 5 guide rails, which are designed as cooling tubes 10, are arranged. the Containers 6 are held in the chamber 5 in an easily movable manner by these guide rails. So that the container 6 can be easily displaced on the guide rails or cooling tubes 10 are, rollers 11 are attached to the containers 6. The procedure of the container 6 in the chamber 5 takes place by a drive (not shown) which z. B. at one on the containers 6 arranged push rod 12 engages. The the guide rails for the container-forming cooling tubes 10 can also be used as a continuous tube coil be formed, which is connected to the water cycle in channels 1 and / or 2 housed waste heat boiler (not shown) is connected. The chamber 5 is provided with a closable opening 13 on the front or back, by means of which the containers 6 are replaced when their flow resistance by the accumulation of dust contained in the exhaust gases inside the containers has risen too high.

Claims (5)

PATENT CLAIMS: 1. Regenerative air or gas preheater whose heat storage masses are alternately exposed to the exhaust gas flow to absorb heat and to the air or gas flow to be preheated for heat dissipation by having two or more storage masses parallel to one another and across the two channels carrying the heat-emitting and heat-absorbing means are movably arranged so that one of the storage masses is in one and the other in the other channel, characterized in that the storage masses (9) are housed in containers (6) which have permeable walls in the direction of flow of the exhaust gas and the agent to be preheated have, and that the containers are provided with rollers (11) which run on cooling tubes (10) designed as guide rails, and that the cooling tubes traverse both channels (1, 2). 2. Regenerative air or gas preheater according to claim 1, characterized in that that the container (6) carrying cooling tubes (10) as a continuous tube coil are trained. 3. Regenerative air or gas preheater according to claims 1 and 2, characterized in that the cooling pipes (10) to the water circuit of in the ducts (1, 2) arranged waste heat boilers are connected. 4. Regenerative air or gas preheater according to claims 1 to 3, characterized by the fact that it can be fully extended the container (6) from the channels (1, 2). 5. Regenerative air or gas preheater according to one of claims 1 to 4, characterized in that with the arrangement of Waste heat boilers in the channels (1, 2) an adjustability of the shift intervals the container (6) is provided. Publications considered: German Patent Specifications No. 953 457, 1005 673; U.S. Patent No. 1548158.