DE1913884A1 - Potassium carbonate heat storage element - Google Patents

Abstract

The heat storage element, especially for use with block storage installations or night storage heaters, consists mainly or entirely of potassium carbonate, with a high melting point, good heat retention and no tendency to form abrasive dust susceptible to air currents. It can be used in installations on its own, or in a cast or pressed casing for safety in case of overheating, the element itself being also damp cast or pressed, and dried to a stone-like substance. Holes for connecting with radiators can be incorporated.

Description

"Heat storage element" The invention relates to a heat storage element, especially for electrical block storage systems, night storage heaters or the like, that contains a salt.

The invention is based on the object of a heat storage element to train this type so that ed with simple manufacturability a great efficiency or has heat storage capacity.

A heat storage element, especially for electrical block storage systems, According to the invention, there is night current storage heaters or the like, which contains a salt to the predominantly made of potassium carbonate (K2CO3).

This salt has the advantage of a relatively high melting point and a large heat storage capacity, it being particularly advantageous that the potassium carbonate in contrast to other similar salts hardly tends to be dusty To form abrasions and thereby allow the flowing through, for example, a heat storage furnace Airflow getting carried away.

The heat storage element can consist entirely of potassium carbonate and can therefore be produced very inexpensively; / is / however also steerable, a Mix with other materials, especially other salts.

For certain purposes, e.g. for household heat storage devices, the heat storage element according to the invention is only suitable for use in firm condition, ie. below its melting temperature, in which case the heat storage element can be freely arranged in the heat storage furnace or the like can.

Advantageously possible, the heat storage element al 8 in to form the sheathing of cast, pressed or similarly introduced bodies, so that a special shape is not required, but the sheathing itself serves as a shape-forming part in the manufacture of the memory element. Through the Sheathing can also be completely ruled out after hardening The heat storage stones created by the salt are created during heating and cooling Abrasions can be released into the environment in the form of dust.

For this reason, it is also conceivable that their heat storage elements Determined to be heated only below the melting point, in a jacket to be arranged, which also ensures that in the event of accidental overheating of the heat storage element Fires and the like can be prevented.

Since potassium carbonate is very easily soluble, under the influence of moisture Is deliquescent salt, the heat storage element according to the invention can in very simply as moist cast, pressed or similarly shaped and then dried stone-like body, so that a casting of the heat storage element is not necessary at temperatures above the melting point. It can for However, the production of the heat storage element can be applied to this process.

For the inclusion of radiators are in the heat storage element appropriately recesses are provided so that the radiators are directly in the heat storage elements can be arranged. The heat transfer from the heating elements to the heat storage element is very good when the former are embedded in the heat storage element. It other parts, for example parts with high thermal conductivity, can also be inserted into the Heat storage element be embedded.

Instead of heating elements or the like. In the heat storage heat storage element It is also possible to embed the element with recesses during manufacture to be provided, in which the heating elements or the like. Inlet, d, h, for example can be plugged in, it is also possible in an advantageous catfish, the recesses Material-lifting on the already solid heat storage element.

The invention is illustrated below with reference to the drawings Embodiments explained in more detail. It is shown in Fig. 1 an inventive Heat storage element in vertical section, FIG. 2 shows the heat storage element according to Fig. 1 in plan view, FiK. 3 a further embodiment of a heat storage element in plan view.

As shown in FIGS. 1 and 2, a heat storage element according to the invention a vessel-like casing 1 which, for example, welded by Sheet metal plates 2, 3 formed and in the one shown in Figs.

1 and 2 shown embodiment is cubic.

Mlt the bottom wall 3 of the casing 1, dLe belaplelsweise on the top closed with a sheet metal plate or, as shown in Fig. 1, locate can be, oind lot right heat extraction pipe II connected that up to the top the casing 1 are performed. Furthermore, 1 vertical heating elements are in the casing 5 provided, which stand up on the bottom wall 3 and approximately up to the top edge the casing 1 are performed.

Both the heat extraction pipes II and the vertical Heitelemente 5 are embedded in a heat storage mass 6, which for the most part consists of Consists of potassium carbonate. The amount of potassium carbonate in the casing 1 is chosen so that the surface of the mass 6 with; Distance below the Upper edge of the jacket 1 is provided.

The heat storage mass 6 can after heating to above the melting temperature directly into those with the Tubes 4 and the heating elements 5 provided Sheath 1 are poured in, so that the parts 4, 5 after the solidification of the heat storage mass 6 are embedded in this.

As Fig. 3 shows, the casing 1a can also be round in plan view, such as circular and thus cylindrical, so that the Heat storage mass 6a is given a corresponding shape.

Claims (9)

Expectations 1. Heat storage element, in particular for electrical block storage systems, Night-time storage heaters or the like, which contains a salt, characterized in that, that it mainly consists of calcium carbonate (K2C03). 2. Heat storage element according to claim 1, characterized in that it is made entirely of potassium carbonate. 3. Heat storage element according to claim 1 or 2, characterized in that that it is in a preferably tight casing (1 or 1a) made of sheet metal or the like. is arranged. 4. Heat storage element according to one of the preceding claims, characterized characterized in that it is preferably wet-cast, pressed or similar shaped body (6 or 6a) is formed. 5. Heat storage element according to one of claims 1 to 3, characterized characterized in that it is cast as a body above the melting point (6 resp. 6a) is formed. 6. Heat storage element according to one of claims 3 to 5, characterized characterized in that it is molded and pressed into the casing (1 or la) or a similarly introduced body (6 or 6a) is formed. 7. Heat storage element according to one of the preceding claims, characterized characterized in that for the inclusion of radiators (5) or the like. Recesses are provided. 8. Heat storage element according to one of the preceding claims, characterized characterized in that it has embedded parts (4, 5), preferably radiators , is provided. 9. Heat storage element according to claim 7 or 8, characterized in that that the recesses are designed as material-removing machined recesses are.