DE3023592A1 - METHOD AND SYSTEM FOR HEAT STORAGE - Google Patents

Description

DlPL-ING. WERNER LORENZ
7920 Heidenheim, Fasanenstr. 7th
Telephone 07321/52740

June 10, 1980
File: DI 667

Applicant:
Societe de Dietrich
F-67110 Niederbronn
France

Process and system for heat storage

The invention relates to a method and a system for the long-term storage of thermal energy is provided.

It is mainly applicable in the home and has the purpose of storing thermal energy in summer as well as in winter, based on the supply of free external energy (e.g. solar energy) or from any recovery.

130024/0660

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The storage of heat in the form of hot water is usually carried out on a small scale in a short period of time but also for significant amounts of heat over a few months and even a year.

In your own home there are separate rooms in which the heat demand from one warm season to the next is stored can be.

Even for a house with a small habitable area of 100 square meters, the calculations show that you can get significant Must provide for amounts of heat which are in no case less than 200 cubic meters. There is only one way to gain space the one solution to use the amount of heat required to change the phase of the liquid.

They know that you can regain an extra 80 kilocalories by turning a liter of water into ice, which in the solid state obviously occupies the same volume.

So if you want to lower the temperature to minus 5 C with water of 60 C, it would be possible to use 145 kilocalories to store per kilo of water converted into ice.

This physical fact is applied in different systems, where one is connected to a reservoir or to a Storage tank connects to a heat pump. So you use the whole usable volume or at least a limited part of the same to give the liquid used, generally water, the maximum of energy to withdraw by lowering the temperature below zero.

130024/0660

This requires a whole network of special cooling tubes inside the volume used.

The complexity of this system and the often considerable performance of those connected to the storage system Refrigerators make their cost considerable, so as not to say prohibitive considering the realizable savings.

Due to this fact, the amortization of this system is so long that its practical appeal for it diminishes.

The method and the system according to the invention also make use of the improvement of the storage through the transition on ice, but without forming a block of ice from the entire volume used.

The object of the invention is to simplify the system considerably and, as a result, make them more reliable and less costly.

The method according to the invention consists in starting from the ground of the storage tank to continuously form pieces of ice from a refrigerant circuit connected to a heat pump is, then these pieces of ice to automatically demold, namely by heating with the help of an external free energy source or some form of recovery, e.g. solar energy, so that they rise to the surface, The method consists in using, in the middle of the season, directly that which is present in the upper part of the container volume to use warm water and separately or together at the bottom of the tank by means of a heat pump which is supplied by the Using solar cells or energy from elsewhere to lower the temperature as much as possible.

130024/0660

The system according to the invention comprises a storage tank which, with the solar cells and a heat accumulator based on air extraction or any other recovery device, delivers a heat pump to a directly connected exchanger, the cell _7, the recovery devices and the primary circuit of the heat pump being connected to one at the bottom of the tank arranged exchange structure are connected. On the same structure, arranged at the bottom of the container, there is a grate for the production of pieces of ice, which rests on a multiple circuit for the circulation of warm water, which comes from the receivers, connected to a circuit for the cooling liquid in close contact with the Structure for making the pieces of ice is available.

The detailed technical features of the invention are dealt with in the following description, which begins with Execute an unrestricted example with the help of attached drawings:

It shows:

Fig. 1 is a schematic section of the entire system,

2 shows a detailed view in cross section of an embodiment of the exchange structure on The bottom of the recovery tank,

3 shows a detailed view in cross section of a second embodiment of the exchange structure at the bottom of the recovery tank.

130024/0680

_% 3023B92

Let us first go through the method according to the invention.

The method consists in extracting heat energy from a liquid, preferably from water, by lowers its temperature, creates pieces of ice on the bottom of a recovery tank in an exchange structure, and connects the following circuits: the multiple circuit for ice cubes production, the nested ones Circuit for the circulation of hot water coming from the solar receivers and the circuit for Cooling liquid from a heat pump in close contact with the circuit for the formation of the ice pieces, e.g. connected to its ground.

More specifically, the method is to make pieces of ice by the coolant of a heat pump and they by the appropriate circulation of warm water coming from the solar receivers and / or from other devices comes to demold, these pieces of ice along the side walls of the ice-forming device to the surface swim in the stored water.

The method allows, with the help of a certain circuit, that accumulated in the container during the mid-season To use heat directly, e.g. to supply an underfloor heating system directly.

In fact, the heat of solidification is recovered when the pieces of ice are made.

Above all, it allows the accumulated calories to be converted by lowering the water temperature - below zero degrees Celsius, i.e. to turn the water into ice for a short time but constantly.

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The system according to the invention is composed of one Recovery tank 1, buried or in the basement, the volume of which is adapted to the needs of the home is, generally about 40 cubic meters. This container consists of a heat-insulated envelope 2 and preferably from an inner tight jacket 3, which rests against the walls. It has a on its upper part Access to the interior in the form of a viewing opening 4.

This container has on its bottom a combined exchange device 5, consisting of two circulation circuits and a structure door for the production of ice pieces 6th

The exchange complex is on the one hand connected to the primary circuit 7 of a heat pump 8, which via his Secondary circuit 10 recovers the calories in an exchanger 9, preferably a mixer tap. The whole Exchange complex 5, on the other hand, is with the. Solar receivers 11 via a feeder circuit containing the circulator 13 12 connected.

The external circuit for heat transport is connected to one or more sources for energy recovery. It can just as well act on an air / water recovery tank 14 or on a heat pump 15, whichever conduct the energy of the phreatic layer or basement into the interior of the house. The latter can be for Give it directly to the mixer 9 for special purposes.

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The exchange complex 5 can be implemented in various technical ways.

It contains in general terms on its surface a structure 16 for the production of ice pieces, which is nested several times with the structure 17, which takes care of the circulation of hot water coming from the solar receivers or elsewhere.

This structure can be produced, for example, in the form of a ribbed sheet metal 18, which is at right angles (crenellated) or is corrugated in a trapezoidal shape and applied to a plate 19. The channels 20 serve as a structure for manufacture the pieces of ice and the protruding structures form the tunnels for the circulation of hot water, which of the solar receivers 11 or another Heat recovery source is coming.

The side walls 22 and 23 belong at the same time to the heating circuit 24 and to the structures for the formation of the Pieces of ice.

The bottoms 25 of the channels 20 are in close contact with the Primary circuit 7 of the refrigerant of the heat pump 8, e.g. in the form of tubes 26 with a circular cross-section.

In certain cases it is advantageous in the vorspringenden .Strukturen 21 lines 27 (Fig. 3) for the indirect Provide heating of the side walls 22 and 23.

130024/0680

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The exchanger or the mixer 9 receives the
direct circuit 28 via a pump 29, possibly the circuit in an air / water recovery tank of the exhaust air, the secondary circuit 10 of the heat pump 8 and, if required, any further circuit for processing the recovered heat, which can be used directly, ie without using the storage tank walk.

The exchanger supplies with its circuit or with
its circuits 30 cover the entire heating system for the home, which is preferably designed as underfloor heating 31 plus, if necessary, a series of radiators or convectors 32.

Underfloor heating is preferred because it works at much lower temperatures than convectors or radiators, i.e. at 3 ° to 40 ° C.

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Claims (1)

: ^j . *!: ■ · ■■■■ ι /., ί -λ, 7 S 2 O H e i d e η 'ί e i m. F α ς ο η ο η s t r. 7th Jejefcn 0 7 ^ 21 / 5ί7-: 0 June 10, 1980 File: DI 667 Applicant: Societe de Dietrich F-67110 Niederbronn France Patent claims: Process for storing thermal energy in one liquid medium, with phase change, preferably with water to transform ice into water for storage and of water in ice for extraction, characterized in that in the period of energy extraction from the bottom one Recovery tank continuously produces pieces of ice in a combined exchange structure, which united in itself: a piece of ice maker, a cycle 130024/0660 ORIGINAL INSPECTED for hot water circulation next to each forming element and also a circuit for the cooling liquid in close contact with the sculptor and by moving the pieces of ice by circulating a warm liquid demolded, which then float to the surface of the water in the storage tank. 2. System for storing thermal energy, characterized in that it contains a storage tank (1) provided in the basement, which is insulated by an inner jacket, on its bottom an exchange complex (5) contains, with heating circuits (17), and a cooler (7), as well a structure for the production of ice pieces (6), wherein the heating circuit (17) with one or more unpaid heat supply sources, e.g. with solar cells (11) and with the cooling circuit off the evaporator of a heat pump water / water (8), the one with the exchanger or the mixer tap (9) is connected. 3. Plant according to claim 2, characterized in that the ice chunk former (6) _/ which is provided on the upper side of the exchange complex consists of a structure for the formation of ice chunks which is nested several times in the structure for the circulation of hot water. 4. Plant according to claims 2 and 3, characterized in that that the formation of the pieces of ice (6) and the circuit for the circulation of the hot ^ water (17) in the form of a ribbed sheet metal (18) with crenellated or trapezoidal 130024/0660 shaped profile is made, which is attached to a support plate (19), the channels Form linear elements for the formation of pieces of ice and the projections closed by the plate represent the pipes of the circuit for the circulation of the hot water. 5. Plant according to claim 4, characterized in that the evaporator circuit / for the cooling liquid in Form of lines is formed on the support plate along the channels for the formation of the ice pieces get lost. 6. Plant according to claim 4, characterized in that the hot water circuit (17) is of a direct type, in the form of lines running in the protrusions. 7. Plant according to claim 2, characterized in that the storage container (1) is directly connected to the exchanger (9) is connected via the specific circuit (28). 8. Plant according to claim 2, characterized in that the exchange complex (5) apart from the circuit of the solar receivers receives the circuit or circuits from any other recovery source. 9. Plant according to claim 2, characterized in that the exchanger or the mixer tap (9.) the circuits directly absorbs the usable recovery sources. 1 30024/0660