SE428603B - HEAT EXCHANGERS FOR HEAT TRANSMISSION BETWEEN GAS MEDICAL - Google Patents

Description

15 20 25 30 35 7307499-a of heat from the warmer medium to a bed mesh and from the latter heat is transferred to cold air, which is heated. But can, for example, use this in air preheating for various forms of combustion devices. The arrangement is further exemplified in the attached Figure 1, which shows two chambers, located next to each other. Figure 2 shows in vertical projection a detail of the ejector device in the heat exchanger, and figure 3 shows the corresponding horizontal projection.

Figure 1 shows two. chamber 1 and 2, respectively, wherein at the bottom of the chamber 1 air is blown at the arrow 5, which (see arrow Sa) is blown into the bottom of a transfer medium 4, consisting of pellets, granules or sand, and holds this floating ice fluidized bed during the passage of air of the transfer medium 4, after which the air heated by the transfer medium 4 passes out at the arrow Sh. The incoming air at 5 can, for example, have a temperature of 0 ° C and the outgoing air at Eb can have 200 ° C. The duct for the air, 5, is located in the bottom of the chamber 1, and around it a communication 6 is arranged to the transfer medium in the chamber 2, whereby transfer medium from this chamber 7, of the same kind as the transfer medium 4, is transported down into the container and through the communication 6 into the bottom of the canary 1.

Figure 2 shows the denominator of how this communication takes place. The duct 5 opens at the arrow 8 in the bottom of the chamber 1 and lccing this duct a communication 6 for the transmission medium 7 is placed in the camera 2. During the blowing of the air, powder fi gzrranul or pellet-shaped medium is transported through the communication 6 from the chamber 2 into the bottom of the chamber 1, and thus an exchange of hotter transfer medium is obtained from the chamber 2 into colder transfer medium in the chamber 1. The blowing of the cold gaseous medium 5 into the apparatus takes place through the narrow channels 5 in the lower part of the chamber 1, which lies next to kanzmaren 2 .. On. correspondingly, the hot gaseous medium at the arrow 9 is supplied through channels 10 into the bottom of the second chamber at 11 and provides a fluidized bed therein. second chamber. preferably the channels 5 and the corresponding channel (ekym fi) are placed alternately to the second chamber.

Figure 5 shows the inlet ducts 5 to the chamber 1, and these are apparently located next to each other, the streaked arrows 11 showing the transport of transfer forging 7 from the chamber 2 to the chamber 1. In order for the apparatus to function, it is thus necessary with a circulation of bed material between the chamber 1 and the chamber 2 and vice versa. 10 15 20 7807499-4 easen tmraree teaaen maa high speed (4o-5o m / h) 1 malen 5 and eating-t is blown out here bed material 7. Channel for the channels. to the respective chambers 1 and 2 are distributed evenly over the cross section of the apparatus so that the required fluidization is maintained. The appliance is tight. No gas leakage Occurs to the air side. The hot gas is blown in at 9 and exits after passing the bed material at the arrows 12.

As can be seen, said heat exchangers have completely movable parts, and the apparatus becomes extremely inexpensive due to the fact that the heating surface (temperature range 4, 7) is heavy.

You can obtain a reliable construction with high density.

The appliance can withstand the supply of gas of high temperature and the bed material provides cooling of gas ducts 5. The heat exchanger is suitable for air heating to both high and low temperature levels. The construction is flexible and suitable for building in modules. The streokado arrows in Figure 1 show the movements of the bed material. The bed material can, for example, last. of stone, glass or steel balls or armat suitable for heat-resistant materials, or also. of sand, and this must be kept floating to obtain a so-called fluidized bed. The temperature of the fluidized material in the respective bed can be maintained. about 200%. However, this is of course only an example of values which may occur in the device according to the invention. The invention can be varied. versatile. within the scope of the following claims.

Claims (2)

780711994; f PATENTIGAV A heat exchanger heat transfer medium, comprising at least two cameras, partially filled with a solid transfer medium in the form of pellets, granules or sand, one gaseous medium (5) being arranged to be blown into the bottom of one chamber (1), the overheating medium therein being kept floating (4), so-called fluidized bed, during the passage of the gas thereof, and in connection with the gas transport transported into the other chamber (2), and the other gaseous medium (9 ) is arranged to on. the same way is blown into the other. the chamber (2), and the transfer medium in this chamber is correspondingly transported into the first-mentioned chamber (1), the colder gas being heated and the hotter being lowered during passage of the transfer medium, characterized in that the supply duct (5), a or several, for gaseous medium are arranged at the bottom of the respective chamber (1, 2) next to a connection (6) communicating with the other chamber for transfer medium, whereby transport of the latter medium (4, 7) takes place by means of ejector action from the gas. . 2. A heat exchanger according to claim 1, characterized in that the supply ducts (5) for the hotter and the colder gaseous medium are arranged alternately below. the two, side-by-side chambers.