NL1014030C2 - Heat exchanger for extracting heat energy from waste water and transferring it to fresh water used for domestic purposes - Google Patents

Abstract

The heat exchanger (1) consists of vertical concentric pipes. The inner pipe (3) carries the warm waste water from a shower or other domestic water system, from the plug hole to the drainage system. Cold mains water flows up the gap between the inner and outer (2) pipes. The inner pipe has an outer casing (4) of heat conductive material, e.g. copper. There is a very narrow gap between the inner pipe and the casing (5).

Description

TUBULAR HEAT EXCHANGER

The present invention relates to a heat exchanger comprising an outer tube, an inner tube arranged therein and fluid supply and discharge means communicating with each tube, wherein a liquid-tight partition is provided between the inner tube and the outer tube. made of such a material that heat is well conducted.

Such a heat exchanger is known from NL 8 203 332. With such a dividing wall a double separation is obtained between the liquid to be heated and the liquid that relinquishes its heat.

The object of the present invention is to provide a heat exchanger, which contains an improved construction compared to a heat exchanger known from the prior art. Another object of the present invention is to provide a heat exchanger, which is particularly suitable for use in recovering heat from process-used liquid, such as process water, rinse water, shower water or waste water, for heating liquid to be used.

According to the present invention, the heat exchanger is characterized in that the dividing wall 25 is deformable such that it is reduced in diameter under pressure of the liquid in the outer tube. As a result, when the heat exchanger is used, the partition wall is pressed against the inner tube, so that an improved heat transfer compared to the known heat exchanger 30 is obtained.

In a preferred embodiment, the partition wall is provided in the longitudinal direction with at least one pleat extending to the outer tube, 1014030 2, so that the partition wall is already pressed against the inner tube at low pressure.

The dividing wall can advantageously be made of copper, which is a material with a high heat conductivity coefficient. In addition, a partition wall made of copper can be of simple thin-walled design, which is beneficial for the heat transfer between the heat-emitting liquid and the liquid to be heated.

In order to further improve the heat transfer, turbulence-promoting agents can be provided in the space between the outer tube and the dividing wall.

The invention also relates to a device for recovering heat from a liquid used in a process, such as process water, rinsing water, shower water or waste water, for heating the liquid to be used, the device comprising a heat exchanger according to the present invention.

Finally, the heat exchanger is herein placed substantially vertically, so that without the use of a pump or the like, the liquid used in a process can flow down through the heat exchanger under natural run-off.

The present invention will be further elucidated with reference to the annexed drawings. In the drawings: Fig. 1 shows a first embodiment of the heat exchanger according to the present invention, Fig. 2 shows a second embodiment of the heat exchanger, Fig. 3 shows a third embodiment of the heat exchanger, and Fig. 4 shows a schematic view of a device for heat recovery according to the present invention.

A first embodiment of the heat exchanger according to the present invention is shown in fig. 1. The heat exchanger 1 comprises an outer tube 1014030 3 2 and an inner tube 3 arranged therein. Each tube 2, 3 is provided with supply and discharge means 15, 16 ; 17, 18 for liquid (see fig. 4). Between the inner tube 3 and the outer tube 2, a liquid-tight dividing wall 4 is provided, which is made of such a material that heat is well conducted. That is to say, the partition wall 4 does not in any case hinder the heat transfer between the two liquids. For this purpose, the material is a material with a high heat conductivity coefficient or the material is of a small thickness.

A space 5 is created between the dividing wall 4 and the inner tube 3, which is in communication with the outside air. As a result, a double separation between the liquid to be heated and the liquid relinquishing its heat thereto is obtained. Besides that the dividing wall 4 is made of such a material that heat is well conducted, it is preferably deformable, such that the dividing wall 4 is reduced in diameter under pressure of the liquid in the outer tube 2. As a result, the dividing wall 4 is pressed against the inner tube 3, whereby an even better heat transfer is obtained.

The second embodiment 25 of the heat exchanger 1 according to the present invention shown in fig. 2 comprises a dividing wall 4, which is provided in the longitudinal direction with two pleats 6 extending to the outer tube 2. The dividing wall 4 in this embodiment is not so highly deformable because of the material of which it is made, but because of the pleats 6 arranged in its periphery. Under the pressure of the liquid in the outer tube 2, the pleats 6 are pressed shut and the dividing wall 4 pressed against the inner tube 3.

The dividing wall 4 of the third embodiment of Fig. 3 contains one longitudinal pleat 6. In addition, in the space 7 between the outer tube 2 and the 1014030 4 dividing wall 4, turbulence-promoting means 8 are provided to further improve the heat transfer. The turbulence-promoting means 8 are formed by a profiled inner surface of the outer tube 2. The profile can consist of grooves, fins or the like. It is also possible to provide a partial filling in the space 7 between the dividing wall 4 and the outer tube 2, which is provided with turbulence-promoting agents. By using a material with low specific heat as filling, the heating time of the heat exchanger 1 is shortened, so that it becomes effective more quickly.

Fig. 4 shows a device for recovering heat from shower water, wherein the recovered heat serves for heating tap water, which is intended for a shower 9. The shower is provided with a mixer tap 10 and a drain 11. The device comprises a heating boiler 12 with a cold water supply 13 and a hot water discharge 14. A heat exchanger 1 according to the present invention is connected to the cold water supply 13 to the heating boiler 12. The heat exchanger 1 communicates with the drain 11 of the shower 9. Both the hot water discharge 14 and the cold water supply 13 lead to the mixer tap 10, 25 which is operable to obtain a desired temperature of the shower water. In Fig. 4 arrows show the directions of flow of the tap water and the shower water. The tap water flows through the inlet 15 through the outer tube 2 of the heat exchanger 1 and the outlet 16 towards the boiler 12. The shower water flows through the inlet 17 communicating with the outlet 11 of the shower through the inner tube 3 from the heat exchanger 1 and the discharge 18 towards the sewer. The tap water and the shower water 35 therefore flow countercurrently through the heat exchanger 1. It is noted that, although not shown in Fig. 4, the heat exchanger 1 of this device is also provided with a partition wall 4 according to 1014030 the present invention.

The cold tap water first flows through heat exchanger 1 where it is preheated by the warm shower water. It then flows to the mixing valve 10, where it can be used immediately, and / or to the heating boiler 12. In the heating boiler 12, the already preheated tap water is further heated and passed via hot water outlet 14 to the mixing tap 10. The heat exchanger 1 is placed substantially vertically, so that the hot shower water flows downwards as a film over the inner surface of the inner tube 3 under the influence of gravity. Because the hot shower water flows as a film over the heat-exchanging surface, a high efficiency of the heat exchanger and thus of the entire device is achieved.

The tap water heating device of the present invention can be easily installed, for example, in the home. Use can be made here of the heating boiler 12 already present with pump and water pipes. The pump is used to pump the tap water upwards through the heat exchanger 1.

Finally, it is noted that the dividing wall can be made of copper, stainless steel or plastic. A relatively smaller coefficient of heat conductivity of the material used can be compensated for by making the partition wall thinner, so that the desired heat transfer is obtained.

1014030

Claims (6)

Heat exchanger comprising an outer tube, an inner tube arranged therein and fluid supply and discharge means communicating with each tube, wherein a liquid-tight partition wall, made of such a material, is arranged between the inner tube and the outer tube that heat is well conducted, characterized in that the dividing wall is deformable such that it is reduced in diameter under pressure of the liquid in the outer tube. Heat exchanger according to claim 1, characterized in that the partition wall is provided in the longitudinal direction with at least one pleat extending towards the outer tube. Heat exchanger according to one of the preceding claims, characterized in that the dividing wall is made of copper. Heat exchanger according to one of the preceding claims, characterized in that turbulence-promoting means are arranged in the space between the outer tube and the dividing wall. 5. Device for recovering heat from liquid used in a process, such as process water, flushing water, shower water or waste water, for heating the liquid to be used, comprising a heat exchanger according to any of the preceding claims. 6. Device as claimed in claim 5, characterized in that the heat exchanger is placed substantially vertically. 1014030