NL7812510A - MEDIUM FOR STORING HEAT AND DEVICES WITH SUCH A MEDIUM. - Google Patents

Description

I. ·. . - <- * ί. . · [. *! * i I vo 6621 '____ __ ____________________________________ ’· Sti cititing Bouwcentrum! I: ROTTERDAM.

I; Inventor: Joannes Marie van Heel. .

i j Medium for storage of heat and furnishing provided with such a medium.

j '-

The invention relates to a medium for storing heat as well as to a device for storing heat with such a heat storage medium and comprising means for supplying heat to the device and means for discharging heat from the device.

Devices for storing heat and the heat storage media used therein are well known. Such devices are used, for example, in conjunction with collectors for collecting heat from solar radiation. The heat storage media commonly used can be divided into solid media and non-solid media.

I # | In many cases, preference is given to solid media from the point of view of operational safety. When a non-solid medium is used, there is a risk of leakage in the device, with all undesirable consequences. Such a danger does not exist with a solid medium. Concrete has already found widespread use as a solid medium for the storage of heat.

The object of the invention is to provide a heat storage medium which, like already known media, has good heat storage properties, but which can be processed and utilized more economically than the known media, for example concrete.

The object set according to the invention is achieved with a medium consisting essentially of a homogeneous mixture of gravel and aluminum grains and / or aluminum powder in fibers. The term "homogeneous mixture" is understood to mean a mixture which everywhere has an almost equal ratio between the volume percentage of gravel and the volume percentage of aluminum particles, while it has as few cavities as possible between the components.

i .... "I r i I .78 1 25 1 0 i 'a' i · 1 ................... ......"

• I

Ί. · »

In a preferred embodiment of the medium according to the invention, "this consists of 60 to 70 volume% of gravel and 10 to 30 volume% of aluminum particles. Preferably" the medium according to the invention further consists of gravel with dimensions of 1 -3 cm and from aluminum-5 minium particles with dimensions not larger than 5 mm. It will be clear that the ideal ratio between the amount of gravel and the amount of aluminum in the medium according to the invention is such that all hollow spaces between the gravel particles are almost completely taken up; filled by aluminum particles.

The advantage of using the medium according to the invention / over non-solid media is that it has an almost unlimited life, is not susceptible to erosion phenomena, nor is it processed in the device in which it is used. As far as the medium is concerned, no maintenance of the device in which it is used is required. The advantage of the medium according to the invention over a solid medium such as concrete is that it can be processed more easily. At present the costs of the medium according to the invention and of concrete at the same volume are comparable. The heat capacity of the medium according to the invention is somewhat less than that of concrete and is of the order of b00-b20 kcal / m ^ / ° C as opposed to about 525 kcal / m ^ / ° C. On the other hand, there is a considerably greater heat conductivity of the medium according to the invention than of concrete. All this means that when the medium according to the invention is used, devices with a smaller volume will suffice than when using concrete, without this leading to any noticeable deterioration in the functioning of the device. A smaller device takes up less space and is therefore more economical.

The medium according to the invention mainly consists of gravel and aluminum. If desired, other materials can be mixed in moderate amounts. For example, on the basis of cost price calculations, it could be decided to replace a small amount of the aluminum particles with a cheaper material, for instance sand. Of course, it will not be possible to add too much sand, since this adversely affects the properties of the medium according to the invention. _. ......

78 1 25 1 0; i! . 3 j £ i _ i .-? The invention is elucidated on the basis of the drawing, in which * 1 is a sectional view through an amount of the sample. storage medium according to the invention,! Fig. 2 is a cross-sectional view of an embodiment of a heat storage device in which the medium according to the invention is used, and. - i! fig. 3 shows a section along the line III-III through the device J.

| according to figure 2.

j 10 Figure 1 shows a cross-section through a quantity! .

i .. of the heat storage medium according to the invention. As shown in the figure | it appears that the medium consists of gravel blocks 1, while the spaces between the chunks 1 are filled with aluminum particles 2. The dimensions of the gravel chunks 1 are preferably 1-3 cm, although larger parts 15 can also be used. The aluminum particles 2 comprise both granules and powder. Maximum dimensions of the aluminum granules of 5 mm turned out to be very suitable. If desired, other materials can be mixed. For example, on the basis of cost price considerations, it may be advisable to mix an amount of sand with the aluminum. The storage medium is essentially homogeneous, meaning that the ratio between the volume percentage of gravel and the volume percentage of aluminum j. everywhere in the medium is almost the same, while the aluminum is the space j. between the gravel sections almost completely fills, so that as little as possible, the heat-storing capacity and the heat conduction adversely affecting air-filled spaces in the medium.

Figures 2 and 3 show a device for heat storage provided with the medium according to the invention. The device comprises a housing 3 of rectangular cross section. The shape of the cross-section is not essential. It can, for example, also be circular or oval. However, a rectangular cross-section is very suitable when the device is used as an integral storage unit, as described in the Heder- / isolated; national patent application 7702356. The housing 3 is fixed on a? base plate 4 and provided with a cover 5 · A central pipe 6 passed through the cover 5 passes through the center of the housing "3. A heat transport medium, for example air, is supplied through the pipe 6 during operation. 78 1 25 1 0

V

* k. / .. fed. For this purpose, the tube 6 can be suitably coupled to a conduit system which can be connected to a device for supplying heat to the transport medium, for instance to a collector for collecting heat from solar radiation. For details 5 reference can be made to the above Dutch patent application.

At the bottom of the housing 3, the tube 6 opens into a reversing space or distribution chamber 7. The transport medium supplied through the tube reverses in the flow direction chamber 7 in the chamber 7, as indicated by the arrows, and then flows upwards via a number of pipes 8 to the collection chamber. mer 9 · The pipes 8 are located more outwards with respect to the central pipe 6, as is clear from figure 3. From the collection. chamber 9, the transport medium can be discharged from the device via one or more tubes 10. It will be clear that, if desired, more collection chambers 9 can be provided, which are spaced one above the other. Such a construction is shown in Dutch patent application 7702356, see for instance figure 2, and is very suitable for use in the direct heating of the tubes 10 in rooms to be heated.

Inside the housing 3 and around the tubes 6, 8 and 10 and the collection chambers 7 and 9 is the storage medium 11 according to the invention, consisting of an essentially homogeneous mixture of gravel and aluminum particles.

The manufacture of a device of the type described with reference to Figures 2 and 3 can suitably be carried out as follows. f 25 to pass. The house, which may consist of a suitable metal or wood, is placed at the location where the device is desired. It .

The housing can thereby be fixed directly on the bottom plate, but instead of the bottom plate a grating provided with small openings can also be used first. If the final bottom plate is already installed at the start of the construction, temporary or permanent openings in the bottom of the housing should preferably be covered with fine mesh for drainage of water, for reasons to be explained hereinafter.

In the house, the required collection chambers, pipes and conduits are set up and, if necessary with the aid of suitable supports, kept in their final position. Gravel is then poured from above into the house around 78 1 25 1 0 t. the parts disposed therein. When the device extends up to the upper edge of the. house is filled with gravel, a mixture I of water and aluminum particles is poured over, the gravel is poured out. The aluminum particles from this mixture fill all voids between the gravel sections 5 while the water flows out from the bottom of the device through the grid or through the above-mentioned temporary openings. To ensure that the aluminum particles fill all the spaces between the gravel sections and that the most homogeneous mass can be formed during the introduction of the. aluminum particles use vibrating rods 10 or similar members to properly pack the forming mixture. The greater the packing density, the better the heat storage properties and the thermal conductivity of the medium according to the invention.

After the housing has been filled with the medium according to the invention in the manner described above, the lid is applied. If initially a grid was used as a base plate, this grid still serves to be replaced by a fixed bottom plate.

S

Ê sr! - I.

i l »j i.

* 5 3 i.

i i ·.

1.

78 1 25 1 0

Claims (4)

1. Heat storage medium, characterized in that the medium consists essentially of an essentially homogeneous mixture of gravel and aluminum grains and / or aluminum powder. ! 5 Medium according to claim 1, characterized in that the medium I consists of 60-70 volume% of gravel and of H0-30 volume% of aluminum particles. i Medium according to claims 1-2, characterized in that the gravel has dimensions of 1-3 cm and the aluminum particles have dimensions no greater than .5 mm. Λ. Device for storing heat with a heat storage medium and provided with means for supplying heat to the device and means for dissipating heat from the device, characterized in that the heat storage medium is a medium according to any one of claims I 1-3 is. 4 a £% Λ%%? | . 78 1 25 1 0 1 »! j ·. '