DE1053538B - Device for cooling liquids, in particular molten salts - Google Patents

Description

GERMAN

In the known devices used for cooling liquids, a The aim is to achieve the best possible heat transfer between the liquid to be cooled and the coolant. For this purpose, for example, in the container with the liquid to be cooled one of metallic pipe coil arranged with cold water flowing through it.

However, such arrangements are not advantageous in all cases. Is z. B. the liquid to be cooled a molten salt that is used for the hot hardening of steel objects and from which the with the Heat supplied to steel parts must be dissipated, but the salt bath is at a considerably higher level Temperature is to be maintained than the cooling water, there is a risk that the molten salt to the Wanidungen the cold pipe coil solidifies, whereby the cooling effect drops in an uncontrollable manner.

If the cooling water reaches temperatures close to the boiling point, the Coiled pipe removes scale, which is difficult to remove. Operation of the cooling device with very hot cooling water is therefore also inexpedient.

There are known cooling devices for such salt baths, in which the container receiving the bath on its outside by sprinkling or spraying with water or a water-air mixture is cooled. This avoids the disadvantages mentioned, but is based on the hot one The outer wall of the container is considerably reduced in scale. In addition, this brings with this type of cooling unavoidable vapor development.

The invention relates to cooling devices in which the coolant flows through closed channels which are in a thermally conductive connection with the liquid to be cooled. TJm with these cooling devices while maintaining a large difference between the temperatures of the liquid to be cooled on the one hand and the liquid coolant on the other hand, which can for example be in the limits between 80 and 200 ° C, to avoid the disadvantages mentioned above, the temperature of the Liquid-in contact wall of the cooling device are only a certain, not too high amount lower than the temperature of the liquid to be cooled. On the other hand, the temperature of the inner wall of the cooling channels may only be a moderate amount higher than the temperature up to which the coolant should heat up. In order to meet both conditions, a device must be placed between the wall of the cooling device in contact with the liquid and the inner wall of the cooling channels
for cooling liquids,
especially molten salts

Applicant:

Brown, Boveri & Cie. Corporation,
Mannheim-Käfertal, Boveristr. 22nd

Erich Breuer, Dortmund,
has been named as the inventor

There is a considerable temperature gradient under which the heat transfer from one wall to the other takes place.

Using this knowledge, the invention provides a device for cooling liquids, especially molten salt while maintaining a large difference between the temperature the liquid and the temperature of the liquid coolant at which the liquid in Contact standing wall surface of the cooling device on the side facing away from the liquid with Projections or ribs is provided, in or on which coolant flowed through at a distance from this wall surface Channels are located, this distance as well as the cross section and the thermal conductivity of the ribs or projections is dimensioned so that on the way of the heat transport from 'the liquid a large proportion of the total temperature difference between the liquid and the coolant Coolant as a temperature gradient between the wall in contact with the liquid and the inner wall of the cooling channels.

According to a preferred embodiment of the invention, the effective cooling surface is in this device by choosing the number and arrangement of the ribs or projections provided with cooling channels measured that when using water as

809 787/371

Claims (6)

Coolant whose temperature is below the boiling point, in particular below the limit of the deposition of hardness components (scale) and the temperature of the liquid to be cooled does not fall below the solidification point at any point. Some exemplary embodiments of the invention are shown in the drawings. 1 to 3 show in sections and views a bath tank 1, preferably made of metal, with a molten salt 2, in which ribs 4 are provided on the outer wall 3, on which channels 5 through which cooling water flows in the form of ribs 4 thermally connected pipes are located. FIG. 3 shows an arrangement of the cooling tubes 5 and the direction of flow of the cooling water indicated by arrows, it being possible to select an embodiment of the ribs according to FIG. 6. Such an arrangement can ensure that with sufficient heat dissipation from the bath, the temperature jump from the molten salt to the container wall remains so small that the solidification temperature of the salt is not fallen below at any point, not even in the immediate vicinity of the wall. Likewise, the temperature of the inner wall of the cooling channels can be limited so that, with normal coolant flow, the temperature of the coolant remains sufficiently low everywhere to avoid the disadvantageous phenomena mentioned. The arrangement and shape of the ribs or projections 4 can be varied. The ribs can be flat or curved, run horizontally, vertically or at an angle, and also have a helical or zigzag shape. They can also, as indicated at 4a, be continued towards the interior of the vessel in order to enlarge the area available for the heat transfer from the liquid to the wall. Some embodiments are shown in FIGS. In order to keep the external dimensions of the baths as small as possible, the ribs can also be bent in accordance with FIG. 5. According to another embodiment of the invention, the cooling device can be designed as an immersion cooler consisting of a liquid-tight hollow body 7 (FIGS. 7 and 8), the inner wall surface of which is provided with projections or ribs 8, in or on which the channels through which the coolant flows 9, 10 and 11 are located. In an embodiment according to FIG. 7, for example, the outer channel 10 can serve for the feed line and the inner channel 11 for the return line of the coolant, or vice versa. Such an immersion cooler can be provided instead of a cooling device shown in FIGS. 1 and 2 or in addition to this. The arrangement of the cooling channels 5, 9 to 11 can expediently take place in such a way that they can be emptied by a natural gradient. If it appears necessary, a device for introducing a pressurized gas - for example air - into the cooling channels can also be provided, through which the remaining liquid coolant can be removed from the cooling channels after the cooling process has ended. Baths of the type in question should sometimes be kept at operating temperature for a long time, e.g. during breaks in operation, with the cooling being switched off. In order to reduce heat losses during these times, i. H. To keep the heat dissipation from the container walls to the surrounding air as small as possible, the bath containers can be provided with thermal insulation. In the case of an arrangement of the cooling device according to the invention, this can expediently take place in that the partition walls between the individual projections or ribs are filled with a heat-insulating material. The invention is not restricted to the exemplary embodiments shown. Various deviations from this are conceivable, primarily of a structural nature. For example B. instead of the cooling tubes 5 attached to the ribs 4 in these ribs provided cavities serve as cooling channels. The ■ channel channels of the individual ribs can be connected one behind the other, in parallel or in groups in parallel. To change the cooling capacity, individual cooling channels or groups of cooling channels can be switched off. The application of the invention is not restricted to the salt bath melts or hot hardening baths mentioned. For example, a cooling device according to the invention can also be provided for metal baths which are used as contact or quenching baths in the heat treatment of wire or strip-shaped material. Claims. 1. Device for cooling liquids, in particular molten salts, in compliance with a large difference between the temperature of the liquid and the temperature of the liquid coolant, characterized in that the wall surfaces in contact with the liquid the cooling device on the side facing away from the liquid with projections or ribs is provided, in or on which there are channels through which coolant flows at a distance from this wall surface are located, and that this distance as well as the cross section and the thermal conductivity of the ribs or projections is dimensioned so that the same way of heat transport from the liquid a large proportion of the total temperature difference between the liquid and the coolant Coolant as a temperature gradient between the wall contacted by the liquid and the Inner wall of the cooling channels is incurred. 2. Apparatus according to claim 1, characterized in that the effective cooling surface through Choice of the number and arrangement of the ribs or projections provided with cooling channels (5) (4) is dimensioned so that when water is used as the coolant, its highest temperature below the boiling point, in particular below the limit of the deposition of hardness components (scale) and the temperature of the liquid to be cooled (2) does not reach the freezing point at any point falls below. 3. Device according to claim 1 or 2 for cooling salt baths serving for hot bath hardening, characterized in that the wall of the container (1) used to hold the bath is provided on its outside with projections or ribs (4), in or on which the from Channels (5) through which coolant flows. 4. Device according to one of the preceding claims for cooling the hot bath hardening serving salt baths, characterized in that the device is designed as an immersion cooler is, which consists of a liquid-tight hollow body (7), the inner wall surfaces with projections or ribs (8), in or on which the coolant flows Channels (9,10,11) are located. 5. Device according to one of the preceding claims, characterized by an arrangement the cooling ducts, which allow them to be emptied through a natural gradient. 6. Device according to one of the preceding claims, characterized in that the The spaces between the projections or ribs (4) are filled with a heat-insulating material are. 1 sheet of drawings © 809 787/371 3.59>