DE2828675A1 - Storage system for solar energy - consists of storage body with two flow passages in contact, one connected to solar heat source the other to the user - Google Patents

Abstract

Heat from a heat source is led into a heat storage vessel using a heat transfer medium. Flowing countercurrent to this stream is a second heat transfer medium connected to the user. If the supply of heat balances the rate of use, no heat is accumulated in the store. If the supply exceeds the use, then heat begins to be stored. Similarly if the supply is less than the rate of use, heat is removed from the store. Used with solar energy systems. Arrangement allows energy to be stored or released irrespective of whether the sum is stirring or not.

Description

Hansen 2251 Schwabstedt, June 24th, 78

——— Am Mühlenberg 1

Method for supplying thermal energy to a heat exchanger and removing this thermal energy from this heat exchanger '

The invention relates to a method for supplying thermal energy to a heat exchanger and for removing it this heat energy from this heat exchanger, using at least two independent ones Piping systems through which a flowing heat transfer medium flows, in the case of the Supplying thermal energy to the energy source and the heat exchanger, and in the case of removing thermal energy flow through the heat exchanger and the consumer.

In the case of heat exchangers of the known type, heat can only be removed if simultaneously or immediately beforehand, thermal energy is also supplied to the heat exchanger.

An application of these heat exchangers when using the sun as an energy source is not, or only to a limited extent, possible, as thermal energy can only be taken from the heat exchanger when the sun is shining.

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There is a further disadvantage of the known heat exchangers in that the heat energy which is supplied to the heat exchanger more than is removed from it, as heat loss is returned to the energy source.

The object of the invention was therefore to provide a heat exchanger to create that avoids the disadvantages described.

This object is achieved in that the thermal energy for the immediate heat requirement in the V / poor exchanger is delivered directly from the feed circuit to the removal circuit, and that the immediate Heat supply exceeding the heat requirement is stored in the heat exchanger. In the periods when the sun is not shining, will from the extraction circuit the one stored in the heat exchanger * Heat absorbed. If, on the other hand, the sun is shining, the required heat is drawn off again immediately The storage heat remains unaffected.

The inventive method is expedient realized by a device which is characterized in that in the heat exchanger the pipeline of the feed circuit and the pipeline of the removal circuit with one another over their entire length are in contact and that the two pipes are in

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the heat exchanger are surrounded by a common heat storage mass.

TJm to guarantee that the pipelines of the feed circuit and the extraction circuit in the heat exchanger also have contact over their entire length, is proposed in a constructive embodiment of the invention that as a pipe in the heat exchanger a multi-chamber pipeline is provided, and that to one chamber of the supply circuit and to another Chamber of the withdrawal circuit is connected.

Such a multi-chamber pipeline is also used Manufacturing time saved because here with the "relocate one." such pipeline all pipelines necessary for the heat exchanger are introduced.

Appropriately, it is also proposed that the extraction circuit in a heating circuit and in a domestic water circuit is divided.

The inventive method is based on the drawn Embodiment explained.

In the figure, 1 is the heat exchanger, 2 is the solar collector as an energy source and 3 is the consumer designated. With 4 is the feed circuit and

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with 5 denotes the withdrawal circuit.

The heat exchanger 1 consists of the heat storage mass and the multi-chamber pipeline 6, one of which 7 is part of the feed circuit 4 and the other 3 is part of the removal circuit 5.

Mode of action;

If the sun marked 1o is shining, the flowing heat transfer medium in the supply circuit is in Circulation shifts and transports the warning from the solar collector 2 into the heat exchanger 1. Namely initially and for as long as via the withdrawal cycle 5 heat is taken from the heat exchanger and fed to the consumer, the heat is transferred to the in the supply circuit 5 circulating heat transfer medium released. Only when there is an excess of heat supply into the heat storage unit 1 is the excess heat from the Wäraespeichermasse 9 recorded and saved. This stored heat is then available to the extraction circuit 5 Grouting if there is no heat from the solar collector 1 can be generated and requires 3 heat from the consumer will.

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Claims (4)

Uwe Hansen 2251 Schwabstedt, June 24th, 1978 ————— Am Mühlenberg 1 Claims n) J method for supplying thermal energy in a heat exchanger and for extracting this thermal energy from this heat exchanger, using at least two mutually independent pipeline systems through which a flowing heat transfer medium flows, in the case of the supply of thermal energy the energy source and the heat exchanger and in the case of the removal of thermal energy flow through the heat exchanger and the consumer, characterized in that the thermal energy for the immediate heat requirement in the heat exchanger (1) is released directly from the supply circuit (4) to the removal circuit (5), and that the immediate heat demand excess heat supply is stored in the heat exchanger (1). 2) Device for carrying out the method according to claim 1, characterized in that in the heat exchanger (1) the pipeline of the feed circuit (4) and the pipeline of the extraction circuit (4) are in contact with each other over their entire length and 909882 / 0U7 ORIGINAL INSPECTED that the two pipes in the heat exchanger (1) are surrounded by a common heat storage mass (9). 3) Device according to claim 2, characterized in that a multi-chamber pipe (6) is provided as the pipe in the heat exchanger (1), and that to one chamber (7) of the feed circuit (4) and to another chamber (8) of the Withdrawal circuit (5) is connected. 4) door direction according to claims 2 and 3 » characterized in that the extraction circuit is divided into a heating circuit and a service water circuit. 909882/0447