NL1011612C2 - Expansion tank integral with main heat storage tank for use in horticultural warehouse - Google Patents

Abstract

The inner tank (6) contains a bladder (7) of e.g. rubber that is supplied via a connection (8) to the pipes (9,10) carrying hot water to and from the main tank (5). The inner tank free space (I) is pressurized via the pipe (11) to a compressor.

Description

Title: Department store as well as a heat storage tank which is particularly suitable for such a department store

The invention relates to a department store provided with a heating system, which is provided with a heating tube system extending through the department store for the purpose of heating the crop located in the department store, the heating tube system being connected to at least one heat source, such as, for example, a boiler and / or a combined heat and power plant which also serves to generate electricity, the heating system also comprising a heat storage tank for temporarily storing heat generated by the boiler and / or combined heat and power plant, the heating system also being provided with at least one expansion system for accommodating the volume changes of the heating medium which occur under the influence of temperature differences.

Such a department store is known from practice. Under the influence of temperature changes of the heating medium, which is generally formed by water, volume changes of about 4% occur at temperature variations of about 100 ° C. Expansion systems are used to absorb these volume changes. In addition, it is preferred that the heating medium does not come into contact with the ambient air to prevent oxidation in the interior of the heating system. Preferably, the pressure in the heating system is kept constant, so that no varying voltages occur in the system. At the well-known department store, this is realized by means of 30 so-called expansion machines. Such an expansion automat is formed by a steel cylindrical tank in which there is a flexible bag clamped at the top and bottom of the tank by means of flanges. The interior of the flexible bag is in fluid communication with the heating medium contained in the heating system. A compressor is connected to the substantially annular space located between the tank wall and the flexible bag, by means of which air can be introduced or discharged into the annular space, so that the pressure in this annular space can be kept constant. Often the commercially available expansion automatons are too small to fully absorb the complete volume change of the heating medium in the heating system. Therefore, in addition to the expansion machine, a number of tracking vessels are often arranged. Such follower vessels substantially correspond in design to the expansion automat described above, with the proviso that the follower vessels are not provided with a compressor for regulating the pressure in the annular space.

A drawback of the known department store is the expansion machines described above and the follower vessels, which are usually arranged next to them. Namely, such expansion vending machines and slave vessels take up a considerable amount of space, which therefore cannot be used for other purposes. In addition, in the expansion automatons, which have a relatively large surface area, a considerable heat loss occurs. Furthermore, the known expansion machines are relatively expensive. In the boiler house of a department store where a heating boiler and / or a combined heat and power plant is often installed, the expansion vessels take up approximately 5 m2 of floor space per 100 m3 of heating medium contained in the heating system 30. Since a heating system with an amount of heating medium of 700 to 800m3 is no exception, the expansion machines take up approximately 40m2 of the boiler house, which is very expensive.

In the current department stores, the heat in the heating system is often generated by a cogeneration plant, with which, besides heat, also 3 electricity is generated. Often, instead or additionally, a heating boiler is used, the flue gases of which, in particular, contain water and CO2, are fed into the cultivation space of the department store to stimulate the growth of the crop located in the department store. It frequently happens that the need for CO2 supply or electricity occurs at a different time than the need for heating. This problem has been solved in practice by including a heat storage tank in the heating system. Such heat storage tanks have, for example, a content of 200 to 1000m3 and can be placed outside or in the ground. The heating medium heated by the combined heat and power plant or boiler, when no heating is desired in the culture room of the department store, is fed to the heat storage tank, so that the heat, which is essentially released as a by-product of electricity or CO2 production, is not lost.

The object of the invention is a department store in which no or hardly any space is lost as a result of expansion machines as described above.

According to the invention, the department store of the type described in the preamble is characterized in that the expansion system is housed in the heat storage tank. The heat storage tank is already present in most department stores for the purpose of improving the efficiency of department stores and is usually arranged outside or underground, so that it does not take up valuable space covered by a building. Because the expansion system 30 according to the invention is housed in the heat storage tank, no valuable, covered space is wasted on the arrangement of expansion automatons and slave vessels. In addition, the expansion system accommodated in the heat storage tank will assume the temperature of the heating medium contained in the heat storage tank, so that the heat losses occurring in the known expansion machines or at least much less will occur.

The invention also relates to a heat storage tank which is particularly suitable and intended for a department store according to the invention, wherein the heat storage tank is provided with an expansion system integrated therein. With such a heat storage tank a department store can be easily created which has the above described advantages.

Further elaborations are described in the subclaims and will be further clarified hereinafter with reference to the drawing.

Figure 1 shows a top view of a conventional boiler house of a known department store; Figure 2 shows a longitudinal sectional view of a first exemplary embodiment of a heat storage tank intended for a department store; Figure 3 shows a cross-sectional view along line III-20 III from Figure 2; Figure 4 shows a detail of the right-hand part of the storage tank shown in longitudinal section in Figure 2; Figure 5 shows a longitudinal section of a second exemplary embodiment of a heat storage tank suitable and intended for a department store; Figure 6 shows a right side view of the storage tank shown in Figure 5; and Figure 7 shows a detail of the right portion 30 of Figure 5.

The boiler house K shown in figure 1 with heat storage tank 4 arranged next to it concerns a boiler house K of a conventional department store. The boiler house K, which has dimensions of 10 x 11 m, contains a space 1 for a cogeneration plant and a heating boiler 2, which is schematically shown. When electricity is required in the department store, the combined heat and power plant installed in installation room 1 is switched on. When additional CO2 is required in the warehouse, the boiler 2 is switched on. Both produce heat that in some cases is not immediately usable at that time. This heat is then stored in the heat storage tank 4. In view of the large volume of the heat storage tank 4, the heating medium will undergo a significant volume change under the influence of 10 temperature differences, which is absorbed in the conventional systems by expansion vending machines 3. The shaded circles schematically show the expansion vending machines 3 again. It is clearly visible that these expansion automatons 3 and the follower vessels 3 arranged next to them occupy a space of approximately 2x6 m in the present example. A floor area therefore of 12 m2. The heat storage tank 4 is located outside the boiler house, the content of which in the present example is 280 m3. Particularly as a result of the heat storage tanks 4 getting larger and larger, the space requirement of the expansion machines 3 becomes an increasingly pressing problem.

Figure 2 shows a first exemplary embodiment of a heat storage tank intended and suitable for a department store according to the invention, wherein the expansion system is integrally incorporated in the heat storage tank 5. The expansion system integrated in the heat storage tank comprises an inner tank 6. In the inner tank 6 included a flexible bellows 7 which is in fluid communication via a pipe 8 with the internal heating medium carrying part of the heating system. In the present case, this is a pipeline 9 which extracts heating medium from the heat storage tank and leads it to a heating pipe system in the department store. Furthermore, in the heat storage tank 5, a supply pipe 10 discharges hot water from the cogeneration plant or the heating boiler 2 to 6 the heat storage tank 5. The inner space I of the inner tank 6 is connected to a compressor via line 11. The compressor is of the conventional type and is not shown in the present figure. Furthermore, a pressure control is provided which keeps the air pressure in the inner tank 6 and thereby the pressure of the heating medium in the heating system substantially constant. After all, the flexible bellows 7, for instance made of rubber, is easily deformable and will take a form in which a pressure equilibrium is created between the pressure of the heating medium in the heating system and the pressure in the inner space I of the inner tank 6.

Figure 3 still clearly shows an inner tank support 12 which clarifies how the inner tank 6 is arranged in the storage tank 5.

Figure 4 shows the right part of the storage tank shown in Figure 2 in slightly more detail.

Figures 5-7 show a second exemplary embodiment 20 of a heat storage tank which is intended and suitable for a department store according to the invention, wherein the expansion system is integrally incorporated in the heat storage tank 15. The expansion system comprises a flexible bellows 17 accommodated in the heat storage tank 15. The internal J of the flexible bellows 17 is connected via a line 21 to a compressor. Furthermore, a pressure control is provided which keeps the air pressure in the flexible bellows 17 and thereby the pressure of the heating medium in the heating system substantially constant. In the present exemplary embodiment, therefore, there is a question of a large, flexible bellows 17, which is filled by the compressor with more or less air. This is in contrast to the flexible bellows 7 of the exemplary embodiment, which is shown in Figures 2-4, which is filled with heating medium. In order to prevent the flexible bellows 17 from rubbing against the walls of the tank 15 when expanding, the flexible bellows 17 is suspended in the top of the heat storage tank 15 so that it can expand freely. As is clearly shown, the heat storage tank 15 of the second embodiment 5 is of course also provided with a heating medium supply line 20 which supplies hot heating medium from the heating boiler 1 or the cogeneration plant to the heat storage tank 15. Furthermore, a heating medium discharge pipe 19 is provided which carries hot heating medium stored in the heat storage tank 15 to a heating pipe system which extends in the culture space of the department store.

Figure 7 shows the right-hand part of the storage tank shown in Figure 5 again in more detail.

It goes without saying that the invention is not limited to the described exemplary embodiments, but that various modifications are possible within the scope of the invention.

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Claims (7)

1. Department store provided with a heating system, which is provided with heating pipe system (9, 10; 19, 20) extending through the department store for heating the crop located in the department store, wherein the heating pipe system is connected to a heat source (2), such as for instance a boiler or a combined heat and power plant which also serves to generate electricity, the heating system also comprising a heat storage tank (5; 15) for temporary storage by the boiler (2) and / or cogeneration plant generated heat, the heating system also comprising at least one expansion system (6, 7, 8, 11; 17, 21) for absorbing the volume changes of the heating medium which occur under the influence of temperature differences, characterized in that the expansion system (6, 7, 8, 11; 17, 21) is housed in the heat storage tank (5, 15). Department store according to claim 1, characterized in that the expansion system comprises an inner tank (6) placed in the heat storage tank (5), in which inner tank (6) a flexible bellows (7) is received, the interior of which the flexible bellows (7) is in fluid communication with the internal heating medium-carrying part of the heating system, the inner space (I) of the inner tank (6) being connected to a compressor, a pressure regulation being provided which regulates the air pressure in the inner tank (6) and thereby keeps the pressure of the heating medium in the heating system substantially constant. Department store according to claim 1, characterized in that the expansion system comprises a flexible bellows (17) accommodated in the heat storage tank (15), the interior (I) of the flexible bellows (17) being connected to a compressor wherein a pressure control is provided which keeps the air pressure in the flexible bellows (17) and thereby the pressure of the heating medium in the heating system substantially constant. Department store according to claim 3, characterized in that the flexible bellows (17) is suspended in the top of the heat storage tank (15), so that it can expand freely. Heat storage tank particularly suitable and intended for a department store according to any one of the preceding claims, provided with an expansion system (6, 7, 8, 11; 17, 21) integrated therein. Heat storage tank according to claim 5, characterized in that the expansion system comprises an inner tank (6) placed in the heat storage tank (5), in which inner tank (6) a flexible bellows (7) is received, wherein the interior of the flexible bellows (7) is fluidly connectable to the internal heating medium carrying part of a heating system, the inner space (I) of the inner tank (6) being connected to a compressor, with a pressure control provided adapted to keep the air pressure in the inner tank (6) substantially constant. Heat storage tank according to claim 5, characterized in that the expansion system comprises a flexible bellows (17) accommodated in the heat storage tank (15), the interior (J) of the flexible bellows (17) being connected to a compressor, a pressure control being provided which is arranged to keep the air pressure in the flexible bellows (17) substantially constant. 'r ** "· .. *