DE3032498A1 - Thermo-electric generator - has certain thermo-couples short circuited to produce maximum temp. gradient - Google Patents

Abstract

The thermo-electric generator comprises rod shaped, series connected thermo-couples heated at the upper ends by a heat absorbing collector and are cooled at their lower ends by a heat sink arrangement. One section of thermo-couples is short circuited and is interconnected so as to produce a Peltier cooling effect. In order to produce greater efficiency the Peltier effect is used in the thermo-electric generator to produce maximum temperature gradients.

Description

Device for thermoelectric power generation

The invention relates to a device for thermoelectric power generation by means of thermocouples.

The photovoltaic generation of electricity from sunlight using junction cells has been known for a long time. This method has been and is so far only insignificant Scope applied to the power supply of devices and systems of artificial earth satellites. A commercial use is the currently still quite high price for the into consideration coming cells.

As far as can be determined, so far the so-called Seebeck effect is for thermoelectric power generation has not been exploited. In measurement technology this effect is used in temperature measurement.

Basic research in the field under consideration is at various Have been driven into places, and laboratory experiments have evidently succeeded in Materials produce the highest possible thermoelectric Let the effect be achieved. The materials to be considered are semiconductors or Material combinations between metals and semiconductors.

A major reason for the previously not done industrial Exploitation of the effects in relation to thermocouples lies in that the temperature difference between the two soldering points of the thermocouples is relative is small, at least under conditions on the earth's surface.

The invention is based on the object of a device for thermoelectric Electricity generation by means of thermocouples to adhere to the highest possible efficiency to achieve.

The solution to the problem is to use the well-known Peltier effect, which is practically the reverse of the Seebeck effect, to use for the soldering points Bring the power-generating thermocouples to the lowest possible temperature, to achieve the maximum possible temperature difference.

In this sense, it is proposed according to the invention that into consideration to train the coming device in such a way that arranged in a housing, preferably rod-shaped thermocouples connected electrically in series and / or series with its upper end with a heat radiation collector and with its other lower end End thermally coupled to a cooling device, preferably a Part of the thermocouples temporarily or permanently by means of a, the cooling device associated conductor bridge is short-circuited and these Ihermoelemente to bring about of a Peltierkühleffek Ls are polarized, while the other thermocouples with external conductors are connected.

Further features of the invention emerge from the subclaims as well from the following description of some preferred exemplary embodiments, which are shown in F Figures 1 to 8 of the drawings. They show: FIG. 1 a cross section through a device for thermoelectric power generation, in which some of the thermocouples used to cool the in the lower temperature level is used where the Soldered joints with the higher temperature level are thermally connected to the collector plate are; FIG. 2 shows a cross section through a device similar to that of FIG. 1, in which additional heat storage is provided; 3 shows a cross section by a device in which the heat radiation collector consists of one of one Consists of a concave mirror surrounded by a rod; Fig. 4 shows a device similar to that according to Fig. 3, in which the heating of the solder joints with a higher temperature level by means of a circulating heat transport medium takes place; Fig. 5 is a similar device that of Fig. 4; 6 shows a device for generating electricity by means of the invention cooled photo elements j Fig. I is a plan view of a section the device of Figure 6; G. a and Bb show the arrangement of permanent magnets in Connection with two thermocouples.

As can be seen from Fig. 1, there is formed according to the invention Device comprising a housing 11, which is composed of the two parts 12 and 13 and is provided with a transparent cover 14. The lower part 12 of the housing 11 can have a cavity 15 which is filled with a heat transport medium is. On the surface of the lower housing 12 or the bottom 16 above the Cavity 15, two groups A and B of thermocouples 17 are arranged in pairs, their lower ends with the conductor bridges 18 and their upper ends with the conductor bridges 19 are soldered.

The lower conductor bridges 18 are highly conductive with the one from a heat Material existing lower housing part 12 or with its bottom 16 thermally good conductivity, but connected electrically insulated. Are in a corresponding manner the upper conductor bridges 19 connected to a collector plate 20, which at their the surface facing the sun blackened or provided with a black coating 21 is to extract thermal energy from the sun's rays in an optimal way. the Collector plate 20 is thermally insulated from the lower housing part 12, which is preferably done in that the upper housing part 13 from heat as possible poorly conductive material is made.

The thermocouples 17 of group A are switched or

polarized or composed of one material and over a conductor bridge 22 short-circuited, so that when the oil points at the upper ends are heated, a Peltier cooling effect occurs at the lower soldering points of the lower ends of the thermocouples 17 entry, by which the temperature of the bottom 16 or the lower housing part 12 is reduced is, in such a way that the highest possible temperature difference between the upper and lower ends of the thermocouples 17 is formed. This makes it possible that the thermocouples 17 of group B a maximum current with appropriate Are able to deliver tension. For this purpose, electrical conductors 23, 24 with the relevant ends of the series-connected thermocouple pairs connected, which are guided to the outside through insulating sleeves 25 in the lower housing part 12.

During operation, the collector plate 20 is exposed to solar radiation heated up. Due to the good conductivity of the collector plate, all of the upper ones prevail Soldering points of the thermocouples 17 practically the same temperature level.

By lowering the temperature of the soldering points at the lower end of the thermocouples of group A, the bottom 16 or the lower housing part 12 is cooled, whereby the lower ends of the thermocouples 17 of group B or their soldering points on Lower temperature level can be brought in this way a higher one Achieve useful performance of these thermocouple groups.

It is possible to also make the housing part 12 from thermally non-conductive To manufacture material; However, it is then necessary to either use the bottom 16 in a suitable manner Way to train, or to fill the cavity with a heat distributing medium.

The embodiment of the device designed according to the invention according to FIG. 2 corresponds in its basic structure to that according to FIG. 1. Both embodiments differ in that, in the case of the one according to FIG. 2, the collector and heat distribution plate 20 'is provided with a container 31, its facing the sun Wall 32, which is blackened on the surface, is formed corrugated. The container 31 is filled with a medium 33 which conducts and stores heat well. Analogue for this purpose, a container 34 is located under the floor 16 ', which is also provided with a Good heat conduction and storage. Medium 35 is filled. How this works Vorrihtuq is the same as that of the device according to 1-ig. 1.

In the embodiment of FIG. 3, the heat distribution plate is 20 ", with which the upper soldering points of the thermocouples 17" are thermally conductive are connected, connected to a rod 41 arranged at right angles to the plane of the plate, which is blackened or provided with a black coating 42 on its surface is. The rod 41 is provided with a concave mirror 44 supported by the housing ring 43 surrounded, the mirrored inner surface 45 against the incident sun rays reflect the rod 41, which then conducts the heat into the heat distribution plate 20 ", so that it takes a correspondingly high temperature.

The lower ends of the thermocouples 17 ″ are non-conductive in heat Terminal plate 46 embedded so that the solder joints between the lower ends of the Thermocouples 17 "and the conductor bridges 18" #im with a liquid that conducts heat well filled cavity 47, which is between the end plate 46 and the housing sealing lid 48 is located, come to rest.

In the embodiment of FIG. 4 is in the area of the upper ends of thermocouples 17 '' 'arranged a plate 51 through which the thermocouples protrude with their upper end, the plate 51 closes the with a thermal fluid filled cavity 52 downwards, which is closed upwards by the cover 53 is. With that one is on the high end closed pipe 54 connected, which corresponds to the rod 41 of the device according to FIG. 3, and which of the concave mirror 55 is surrounded. Inside the pipe section 54 is at a distance from the wall of the pipe section 54 mounted a pipe section 56 open at both ends, the lower end of which with the located in the cavity 52, designed as a baffle plate 57 is connected.

As the pipe section 54 is heated, the temperature between the pipes increases 54 and 56 located liquid upwards and falls inside the tube 56 after below, with the conductor bridges 19 "'of the thermocouples lying in the cavity 52 17 "'. The liquid then flows around the outer edge of the plates 57, to re-enter the space between the two tubes 54 and 56, to be reheated.

The embodiments according to FIGS. 5 to 7 relate to devices for generating electrical power by means of solar cells, of which it is known that their efficiency decreases with increasing warming. To avoid this, the Solar cells with thermocouples with Peltier cooling effect are provided, by means of which the solar cells are kept at a desired low temperature level can.

In the embodiment of FIG. 5 there is one inside Housing 61 a concave mirror 62, the incident sun rays against a central double-walled container 63 reflected, in the cavity 64 is a There is thermal fluid that heats up the warm spots of the thermocouples 17 "", which are located in the interior of the container 63, and in its center solar cells 65 are arranged, which are thermally coupled to a thick-walled aluminum disc 66 are, on which the cold soldering points of the thermocouples 17 "" are in turn. This is how the aluminum disc becomes 66 chilled and the solar cells 65 are kept at a correspondingly low temperature level.

In a similar embodiment according to FIGS. 6 and 7 are in a trough-like housing 71 on both sides of a thick-walled rail 72 made of heat highly conductive material, on the surface of which the solar cells 73 are arranged, Rails 74 made of material which is also a good heat conductor, their surfaces with a covering 75 are provided, which a good heat absorption of the incident on it Irradiation guaranteed. Below rails 72 and 74 are thermocouples 17 "" 'arranged, the cold solder points under the middle rail 72 and their warm solder points under the rails 74 lying on the outside. Because of the warming of the outer rails 74 are the thermocouples 17 "" 'in the area of the warm solder joints heated, creating a cooling effect on the cold soldering points below the middle rail 72 through which the rail 72 and thus the solar cells 73 are kept at a desired low temperature level. In order to avoid, that the heated outer rails 74 radiate heat against the middle rail 72, is arranged between these insulating material 76; a screen 77 can also be in the form a mirrored tape can be provided. The housing 71 is advantageously closed with a cover 78 made of transparent material to the arrangement in To protect the interior of the housing 71 against the effects of the weather.

As is known, the properties of the thermocouples 17 by magnetic fields be influenced favorably, it is advantageous to provide permanent magnets, such as this can be seen from Figures 8a and 8b. In the embodiment according to Fig. 8a a step iron magnet 81 is arranged in such a way that the thermocouples 17 between the north and south pole legs of the permanent magnet 81 are, creating a magnetic field across the longitudinal axis of the ThermoeRemente 17 is generated.

It is desirable to generate a magnetic field that is longitudinal the thermocouple 17 is located, a permanent magnet 82 is provided in a ring shape, which is magnetized in such a way that the north pole, for example, at the top and the South pole lie on the lower end face of the magnetic ring 82.

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Claims (13)

Claims device for thermoelectric power generation by means of Thermocouples, characterized in that arranged in a housing (11) preferably rod-shaped thermocouples connected electrically in series and / or series (17) with its upper end with a heat collector and distributor (20) and with their other lower end are thermally coupled to a cooling device, wherein preferably a part (A) of the thermocouples temporarily or permanently by means of a, the cooling device associated conductor bridge (22) is short-circuited and this Thermocouples are polarized to bring about a Peltier cooling effect, during the other part (B) of the thermocouples (17) with conductors led to the outside (23,24) connected is. 2. Apparatus according to claim 1, characterized in that the heat collector and distributor from a plate (20) made of a material of high thermal conductivity consists. 3. Apparatus according to claim 1 or 2, characterized in that the heat collector has a heat accumulator (15; 31, 33) or with one connected is. 4. Apparatus according to claim 1, 2 or 3, characterized in that that the heat collector consists of a rod (41) surrounded by a concave mirror (45) or the like. consists, which is connected to the upper ends of the thermocouples (17 ') thermally coupled heat conduction and distribution plate (20 ") thermally conductive connected is. 5. Apparatus according to claim 1, 2, 3 or 4, characterized in that that the thermocouples with their one upper end directly to the collector plate (20) are connected from a dielectric material of high thermal conductivity. 6. Apparatus according to claim 1, 2, 3 or 4, characterized in that that the thermocouples (17) with their upper end with the interposition of a dielectric Material of high thermal conductivity with the heat collector and distributor (20) a material of high thermal conductivity are connected. 7. Device according to one or more of claims 1 to 6, thereby characterized in that above the upper ends of the thermocouples (17) or the heat conduction and distribution plate (20) with a heat transport medium, in particular a dielectric thermal fluid filled cavity (31; 51) is located. 8. Apparatus according to claim 7, characterized in that the with a heat transport medium filled cavity (52) with the interior of one of a Concave mirror (55) surrounded, at the outer end closed pipe section (54) connected is, and that in the cavity (52) above the upper ends the thermocouples (17 "') and in the inner space of the pipe section (54) baffles in the form a plate (57) and a tube (56) open on both sides, which is connected to the plate (57) is connected. 9. Device according to one or more of claims 1 to 8, characterized characterized in that the lower ends of the thermocouples (17) with a plate (16; 46) preferably made of dielectric material of high thermal conductivity or are passed through them. 10. Device according to one or more of claims 1 to 8, characterized y indicates that the lower ends of the thermocouples (17) are interposed a dielectric material of high thermal conductivity with a plate (le) a material of high thermal conductivity are connected. 11. Apparatus according to claim 9 or 10, characterized in that below those thermally coupled to the lower ends of the thermocouples (17) Plate (16; 46) or a cooling medium below the lower ends of the thermocouples (17) containing cavity (35; 47) is arranged. 12. The device according to one or more of claims 1 to 11, characterized by arranging a with respect to the axis of the thermocouples (17) coaxial and / or transverse magnetic field. 13. Vorriclitun according to claim 12, characterized in that a or several thermocouples (17) from a ring-shaped or horseshoe-shaped permanent magnet (81,82) is or are surrounded by corresponding magnetic polarity.