NL1026641C2 - Heat exchanger, comprises pipes for transporting first medium through reservoir containing granular material and flow of second medium - Google Patents

Abstract

A bundle of pipes (7) is used to transport a first medium through a reservoir (2) with an inlet (14) and outlet (15) for a second medium to flow through. The reservoir contains granular material. The granular material is in the form of a fluidised bed (16) supported by a distributor plate beneath the pipes.

Description

Title: Device for carrying out a physical and / or chemical process

The invention relates to a device for performing a physical and / or chemical process, such as a heat exchanger, comprising a reservoir traversed by a bundle of tubes, comprising a bottom side, a top side and side walls surrounding an inner space, wherein the bundle of tubes is adapted for flow-through with a first medium during use, and wherein the reservoir comprises a supply opening and a discharge opening for flow-through with a second medium.

Such a device is known, for example, from patent publication NL 1 014 916, in which a heat exchanger is described with a bundle of tubes which cross the reservoir horizontally and are received near the ends in the side walls of the reservoir. The tubes are flowed through during use by a first medium to be treated or heated. The reservoir can be flowed through a second medium from the supply opening to the discharge opening so that a physical and / or chemical process, for example heat exchange, can take place.

A drawback of such a heat exchanger is a relatively low heat transfer efficiency, certainly with contamination occurring in the media that interact physically and / or chemically.

The invention contemplates an apparatus for a physical and / or chemical process, such as a heat exchanger, wherein said disadvantages are avoided while retaining the advantages. In particular, it is an object of the invention to obtain a device in which the operation is improved. To this end, the reservoir contains granular material during use.

The invention is based on the insight that the operation of the device can be impeded not only by deposits and / or caked particles on the inside of the tubes, but also in the reservoir, such as on the housing side of the tubes, in the space between the tubes, or near the side walls of the reservoir.

Furthermore, providing the reservoir with granular material during use achieves an operation of the device. The improved action is brought about by abrasive action of the granular material. The flow of the second medium at least partially entrains the granular material into the inner space of the reservoir, whereby the cleaning effect is achieved by a slight abrasive or abrasive effect of the material on parts present in the reservoir. This reduces the chance of the occurrence of deposits and the like, and if such an attack nevertheless occurs, the size and / or the growth rate thereof is limited, so that proper operation of the device can be guaranteed longer and the period between maintenance work can be extended, also when the reservoir is subject to strong contamination due to the first medium.

It is noted that the granular material comprises, for example, chopped wire and / or solid particles with an irregular shape. However, the granular material can also comprise particles with a regular shape, such as spherical particles.

It is further noted that a heat exchanger is known from Dutch patent publication NL 0 694 152, wherein granular material is added to the first medium through which the tubes flowed through, for cleaning the inner surfaces of the narrow tubes, which are relatively narrow.

The reservoir is preferably provided with a distribution plate for supporting a fluidized bed constructed from the granular material. The granular material can hereby be brought into a quasi-stationary, fluidized state, so that turbulence of the first medium is created. Due to turbulence of the first medium, more particles of the first medium come into contact with the bundle of tubes per 1026541 ____ 3 time unit, so that the functioning of the physical and / or chemical process improves even further. Furthermore, the turbulent flow can prevent the formation of a stationary boundary layer on the outside of the tubes, whereby the heat transfer is improved. A cleaning effect can also be obtained with only relatively little granular material.

By also providing the reservoir with a screen plate, it is prevented that the granular material is discharged from the reservoir 10 via the outlet. The granular material can be utilized efficiently in this way, for example by use in a fluidized bed. However, it is also possible to arrange the reservoir in such a way that the granular material flows substantially continuously during use as a partial flow.

However, as an alternative, the device can also comprise means for returning the granular material from the discharge opening to the inner space of the reservoir, so that the granular material can be reused efficiently.

Further advantageous embodiments of the invention are shown in the subclaims.

The invention will be further elucidated on the basis of an exemplary embodiment shown in the drawing. In the drawing:

FIG. 1 is a schematic side view of a device for performing a physical and / or chemical process according to the invention.

The figure is only a schematic representation of a preferred embodiment of the invention. In the figures, identical or corresponding parts are indicated with the same reference numerals.

1'- 1 02664 1____ 4

Figure 1 shows a device designed as a heat exchanger 1 for carrying out a physical and / or chemical process. The heat exchanger 1 comprises a reservoir 2 with a bottom side 5, a top side 4, and side walls 6 which together surround an inner space 3 of the reservoir 2. A supply opening 14 is provided on the underside 5 of the reservoir 2, into which a first supply tube 21 opens. At the top 4 of the reservoir 2, a discharge opening 15 is provided to which a first discharge pipe 22 is connected.

The reservoir 2 is traversed by a bundle of tubes 7. The bundle of tubes 7 traverses at least a part of the reservoir substantially lying down, so that at a low height of the device 1 a relatively large outer surface of the tubes 7 can still be in contact with the inner space 3 of the reservoir 2, which results in a relatively high heat exchange.

15. The individual tubes 7 are each with an inlet and outlet side 8, 9 received in pipe bores 10 which extend substantially transversely to the plane A of the side walls 6 accommodated in the reservoir 2. On the side of the side walls 6 remote from the inner space 3 of the reservoir 2, side chambers 11 are present. The side chambers 11 are in fluid communication with the supply and discharge sides 8, 9 of the tubes 7 and second supply and discharge tubes 12, respectively. 13 connected to the side rooms 11.

During use of the device 1, a first medium flows from the second supply tube 12 via a side chamber 11 and the supply sides 8 to the tubes 7. The first medium then flows via the discharge sides 9 to another side chamber 11 and from there to the second discharge tube 13 .

A second medium flows into the inner space 3 of the reservoir 2 via the first supply pipe 21. Subsequently, flow takes place along the outer surfaces of the bundle of tubes 7, wherein a physical and / or chemical process takes place. The second medium is then discharged 30 via the first discharge tube 11.

1026641 5

During use, the heat exchanger 1 is provided with means for supplying granular particles to the second medium, also known as fluidized bed particles. As shown in FIG. 1, the means comprise a third supply tube 23 through which a quantity of granular material is supplied to the inner space 3 of the reservoir 2 via a second supply opening 18 during use. The granular material moves as a partial flow along the outer surfaces of the tubes 7 and the side walls 6. of the reservoir 2, so that contamination and deposition of undesired parts is prevented. The granular material can be supplied to the second medium in the inner space 3 of the reservoir 2, but also via a separate device which is connected upstream to the first supply pipe 21.

The reservoir 2 is furthermore provided with one or more distribution plates 16 with openings 17 for supporting a fluidized bed constructed from the granular material 15. The third supply tube 23 preferably opens out just above a distribution plate in order to create good conditions for forming the fluidized bed. The turbulence of the first medium induced by the fluidised bed increases the heat exchange since more particles of the first medium come into contact with the tubes 7 per unit of time. As shown in Figs. 1, the distribution plates 16 are preferably located under the bundle of tubes 7, so that the bundle of tubes 7 is in the area where the fluidized bed is situated during use.

By positioning the bundle of tubes 7 in such a way that the first supply tube 21 is located more at the bottom 5 of the reservoir 2 relative to the bundle of tubes 7, and the first discharge tube 22 more at the top 4 relative to the bundle of tubes 7 located away from the reservoir, the fluidized bed can clean the outer sides of the individual tubes 7.

Above the bundle of tubes 7, the reservoir 2 is provided with a screen plate 19 with aperture 24 in order to prevent the granular material from escaping from the inner space 3 of the reservoir 2 and being discharged with the second medium via the first discharge tube 22. The second medium flows through the openings 24 of the screen plate to an upper cabinet 26 located above the screen plate 19 and connected via the outlet opening 15 to the first outlet tube 22.

The heat exchanger further comprises means for returning the granular material from the discharge opening 15 to the inner space 3 of the reservoir 21. As shown in FIG. 1, the means comprise an external recirculation device 25 which comprises, for example, a fall pipe and / or a separating device for separating the granular material from the second medium, as described in more detail in Dutch patent publication NL 0 694 152. The means for returning however, the granular material can also be designed differently, for example as an internal recirculation device placed in the reservoir 2 of the heat exchanger 1.

The invention is not limited to the exemplary embodiments described here. Many variants are possible.

The first, second and third supply pipes 21, 12, 23, as well as the first and second discharge pipes 22, 13 can each be provided with operable valves for regulating the supply and discharge flows.

Such variants will be clear to those skilled in the art and are understood to be within the scope of the invention as set forth in the following claims.

Claims (9)

Device for performing a physical and / or chemical process, such as a heat exchanger, comprising a reservoir crossed by a bundle of tubes, comprising a bottom side, a top side and side walls surrounding an inner space, the bundle of tubes being arranged for during use flow-through with a first medium, and wherein the reservoir comprises a supply opening and a discharge opening for flow-through with a second medium, and wherein the reservoir further comprises granular material during use. 2. Device as claimed in claim 1, wherein the reservoir is provided with a distribution plate for supporting a fluidized bed constructed from the granular material. Device as claimed in claim 2, wherein the distribution plate is located under the bundle of tubes. 4. Device as claimed in any of the foregoing claims, wherein the feed opening relative to the bundle of tubes is located more at the bottom of the reservoir, and wherein the discharge opening is located more relative to the bundle of tubes at the top of the reservoir. Device as claimed in any of the foregoing claims, wherein the reservoir is provided with a screening plate above the distribution plate. Device as claimed in any of the foregoing claims, further comprising means for returning the granular material from the discharge opening to the inner space of the reservoir. 7. Device as claimed in any of the foregoing claims, which device is provided with means for supplying the granular particles to the second medium. 10266 ** 0 .. Device as claimed in any of the foregoing claims, wherein the bundle of tubes traverses at least a part of the reservoir substantially lying down. 9. Device as claimed in any of the foregoing claims, of which bundle the individual tubes each with a supply and discharge side are received in pipe bores which extend substantially transversely to the plane of a side wall received in the reservoir. 107RR4J_ _ _