CS234702B1 - Multi-media coil heat exchanger with different coil length - Google Patents

Abstract

The purpose of the invention is to create a tube coiled bundle that allows the medium to enter a part of the tube bundle at a location corresponding to the temperature of the intertube space. The coiled tube bundle is divided into an inner part (2) and an outer part (3), the inner part being divided into a lower part (2a) and an upper part (2b) at the start of the winding of the outer bundle (3). The outer coiled bundle (3) is wound on only one of these parts.

Description

The invention relates to a multi-copper coil heat exchanger with different coil lengths for individual copper.

In multi-medium wound heat exchangers with countercurrently connected heat transfer media, it may be the case that one of the heated and / or heated coil heat exchangers can be heated. the cooled medium flowing in the tubes has a higher, respectively higher, flow rate. a lower inlet temperature than the outlet temperature of the cooled, resp. heated medium emerging from the inter-tube space. At present, such a case is solved either by splitting the heat exchanger or, if the difference is only small, by conventional connection in countercurrent and by oversizing the heat exchange surface, which means an increase in the cost of acquisition.

The disadvantages of the split exchangers are higher costs due to the need for additional tube plates, hats and flanges and other problems with the possible re-distribution of the steam-liquid mixture and further increase of the pressure loss.

The above-mentioned disadvantages are overcome by a multi-medium heat exchanger having different lengths of the winding bundle according to the invention, formed by winding the heat exchange tubes into layers, which consists in that the inner tube bundle formed by heat exchange tubes of certain medium with overall longer winding length is divided at the beginning of the outer coil bundle with shorter tubes into the lower part and the upper part. An outer tube bundle with shorter tubes is wound onto the upper part of the inner tube bundle and the heat exchange tubes from the lower part of the inner tube bundle are transferred at the point of splitting the inner tube bundle either parallel to the axis of the winding bundle or below a higher pitch.

234 702 than the tube pitch in the coil. The tubes of the outer tube bundle are fixed in the side tube sheets located at the location of the division of the inner tube bundle.

The solution described allows for heat exchange ^from me dia entering the heat exchanger at a location corresponding to the input temperature of the medium flowing in a tube, and the temperature field in the tubular space. A further advantage of this solution is that such an apparatus can be implemented as a single heat exchanger with an optimum heat exchange surface area.

The drawing shows an exemplary embodiment of a three-wire coil heat exchanger according to the invention.

A total of three media 16, 16 are involved in the heat exchange process, with media 2 flowing from top to bottom between the tubular space. Medium 5 enters the apparatus through the throat 8 and exits the throat

9. The medium 6 and the medium 7 flow down the tubular space from below, the medium 6 entering the apparatus through the throat 10 and exiting the throat 11. The medium 6 enters the apparatus through the throat 12a and 12b and exits the throat 13. The tubular wound heat exchanging surface of the medium 6 is formed a tube bundle divided into a portion of the lower 2a and a portion of the upper 2b. The tubular wound heat exchanging surface of the medium 7 is formed by an outer tube bundle 2 wound onto the upper part of the tube bundle 2b of the medium 6. At the location of the tube 6, the heat exchange tubes are transferred from the lower part of the bundle 2a to the upper part of the bundle by the shortest route, i.e. heat exchanger. In the space formed by the splitting of the bundle 2a, 2b there are placed tube plates 14a, 14b fastened in the housing T with the inlet throat 12a, 12b of the medium 7, into which the medium heat exchange tubes 60 are fixed.

The multi-vane coil heat exchanger according to the invention is applicable in the low temperature technique.

Claims (2)

OBJECT OF THE INVENTION 234 702 A multi-media coil heat exchanger having different coil lengths for individual media, formed by winding heat exchange tubes into layers, wherein the heat transfer tubes of the individual media may have different lengths, characterized in that the inner tube bundle is formed by heat exchange tubes of a particular medium. A plurality of media, with an overall length of the coil bundle, is divided at the beginning of the outer coil bundle (3) with shorter tubes into a lower part (2a) and an upper part (2b), wherein the upper part (2b) the outer tube bundle (3) with shorter tubes and heat exchange tubes from the lower part of the inner coil bundle (2a) are transferred at the location of the inner tube bundle (4) to wind the upper part of the inner tube bundle (2 b) hu parallel to the axis or under a higher pitch than the pitch of the tubes in the winding bundle. 2. Device according to claim 1, characterized in that the outer tube bundle (3) of the heat exchange tube is mounted in the side tube plates located below :; lf? dividing the inner tube bundle (4).