DE10249503A1 - Process for energy conversion especially of thermal into electrical energy, has emitter and receiver reversibly coupled to give one hundred per cent efficiency - Google Patents

Abstract

A process for energy conversion, especially of thermal into electrical energy, comprises a black body (1) radiating a corresponding power at a given temperature and a radiation receiver (2). These are so placed that by a reversible process the receiver removes the black body radiation. An Independent claim is also included for a device for the above process.

Description

The present invention relates on a method for energy conversion and on its device to carry out of the process to convert thermal energy into electrical energy in particular convert.

Conventional plants, the process use for energy conversion, such as B. coal-fired power plants have the Disadvantage that the energy content of the coal is not completely in electrical energy can be converted. Because in a coal-fired power plant the coal is burned and you put the thermal energy in first converts mechanical energy, e.g. over a turbine, is here a better energy conversion than in a Carnot process, not possible. The result is that part of the thermal energy cannot always be used (Hering Martin Stohrer, physics for Engineers, page 426, VDI Verlag Düsseldorf 1989, 2nd edition). This is the cause of numerous problems regarding one optimal use of energy.

First the known physical Basics that can be found in the literature: how Hering Martin Stohrer, Physics for Engineers, page 426, VDI Verlag Düsseldorf 1989, 2nd edition; or H. Wegener, Physics for High school beginners, Chapters 20, 31 and 25, B.G. Teubner Stuttgart 1989, 2nd edition; as well as John D. Jackson, subsection 6.8, W. de Gruyter Verlag, Berlin 1983, 2nd edition; 4. Berber Kacher Meyer, page 40, publisher Handicrafts and technology, Hamburg 1990, 13th edition.

dP ist die Strahlungsleistung einer schwarzen Fläche A in den Halbraum bei der Temperatur T im Wellenlängenbereich von λ bis λ + dλ , h, k und c sind Konstanten.The first thing to consider is the radiation energy of an ideal black body, for which Planck's law of radiation applies:

dP is the radiant power of a black area A in the half-space at temperature T in the wavelength range from λ to λ + dλ, h, k and c are constants.

From the previously known processes for energy conversion is always disadvantageous that part of the thermal energy, which should be converted into electrical energy, not optimal can be used.

The object of the invention is therefore based on a method and its device for energy conversion of thermal energy in creating electrical energy with an efficiency of 100%.

This task is done with the generic term of claim 1 according to the invention solved in that a black body and a receiver are brought together that with a reversible process control the receiver dissipates energy from the electromagnetic radiation field of the black body.

ab und kühlt dabei ab. Diese abgegebene Leistung erhöht die Energiedichte u(x ,t) des elektromagnetischen Feldes. Ist zum Beispiel die elektromagnetische Energiedichte u(x ,t) = 0 und hat der schwarze Strahler eine Temperatur T > 0 , dann gibt der schwarze Strahler die Energie ∫Pdt ab und erhöht die elektromagnetische Energiedichte, dabei verringert sich die Temperatur des schwarzen Strahlers. Dieser Prozess ist im Sinne der Thermodynamik reversibel, da der schwarze Strahler jede auftreffende Strahlungsenergie absorbiert, dadurch wird die ganze Energie im elektromagnetischen Feld wieder in Wärmeenergie umgewandelt und der Ausgangszustand erreicht, ohne das Änderungen verbleiben.An ideal black radiator gives the power at a temperature T.

cools down. This output increases the energy density u (x, t) of the electromagnetic field. For example, if the electromagnetic energy density u (x, t) = 0 and the black radiator has a temperature T> 0, then the black radiator emits the energy ∫Pdt and increases the electromagnetic energy density, thereby reducing the temperature of the black radiator. This process is reversible in the sense of thermodynamics, since the black radiator absorbs all incident radiation energy, which means that all the energy in the electromagnetic field is converted back into thermal energy and the initial state is reached without any changes.

SS ist der Poyntingvektor, W ist die Energie, E das elektrische Feld und j die Stromdichte.The second aspect is the Herz dipole. The Herz dipole can be used for both receiving and transmitting electromagnetic radiation energy, ie the reception and transmission of electromagnetic radiation energy is a reversible process in the sense of thermodynamics. To understand the process of converting electromagnetic field energy into electrical current, consider Poynting's theorem in Equation 2:

SS is the Poynting vector, W is the energy, E the electric field and j the current density.

und damit ist der elektromagnetische Energiefluss S durch die Oberfläche O(V) aus dem System heraus gleich Null. D. h., dass die Feldenergie komplett in elektrischen Strom umgewandelt wird. Eine Alternative zum Herzschen Dipol ist die Verwendung von Leiterschleifen. Bei diesen Empfängern von elektromagnetischer Strahlungsenergie wird unter Ausnutzung des Induktionsgesetzes elektrische Energie erzeugt. Beim Induktionsgesetz macht man sich die zeitliche Änderung des magnetischen Flusses zu nutze, um eine elektrische Spannung zu erzeugen und damit dann elektrische Energie.If the energy stored in the electromagnetic field is completely converted into mechanical kinetic energy of the electrical charges in the dipole, then the energy of the electromagnetic field after the interaction with the dipole is zero. The Poynting vector SS is therefore also equal to the zero vector. It follows for the change in total energy over time

and thus the electromagnetic energy flow S through the surface O (V) out of the system is zero. This means that the field energy is completely converted into electrical current. An alternative to the Herz dipole is the use of conductor loops. With these receivers of electromagnetic radiation energy, electrical energy is generated using the law of induction. The induction law makes use of the change in the magnetic flux over time to generate an electrical voltage and then electrical energy.

Now build one according to the invention black radiator and a receiver for electromagnetic radiation energy so together that the recipient from the electromagnetic radiation field of the black body Dissipate energy can, so it is possible through the black radiator heat energy in convert electrical energy with reversible process control. A such facility neither violates against the first still against the second law of thermodynamics.

The first law is replaced by a Machine with the efficiency η = 1 not injured.

The second law is also fulfilled because the recipient for electrical magnetic radiation energy can also be used as a transmitter. A conductor loop or a Herzscher dipole are capable of electromagnetic To send or receive radiation energy. This shows that the conversion of electromagnetic radiation energy into electrical energy is a reversible process. The transformation of thermal energy into electromagnetic radiation energy over a black body is also a reversible process, since any radiant energy emitted is completely swallowed again by a black lamp if one directs the radiation energy back again.

Using various illustrations the invention is intended to be closer to be discribed.

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1 the sequence of the process as a basic variant for energy conversion, consisting of a black cavity radiator 1 and a receiver 2 as main components and a filter 3 ,

2 shows the process in the conversion of thermal energy Q into electrical energy W _el with η = Q / W _el = 1. The dashed line represents the system boundary between a plant that uses the process and its surroundings.

3 to 11 show further variants for performing the method according to the invention.

In 1 a system is sketched which converts thermal energy into electrical energy according to the invention. The black spotlight 1 the electromagnetic radiation energy is emitted as a cavity radiator 4a in each wavelength according to equation (1). This electromagnetic radiation energy 4a is through a filter 3 sent who only the radiation energy 4c lets through the receiving dipole 2 resonated. The rest of the radiation energy 4b , whose wavelength is different from the resonance wavelength, becomes a black body 1 reflected and absorbed there. The electromagnetic radiation energy 4c is in the receiving dipole 2 converted into electrical energy as a receiver and can then be dissipated and used.

2 shows that the thermal energy Q ensures that the black body 1 maintains a constant temperature. The energy that the black spotlight 1 emits, is converted into electrical energy W _el .

In 3 is shown that the recipient 2 for the electromagnetic radiation energy both as a Herz dipole and as a conductor loop in the black body 1 is to be admitted to also To be able to convert thermal energy Q into electrical energy W _el .

With the arrangement acc. 4 that between the black spotlight 1 and a mirror 5 the recipient 2 is arranged, a non-absorbed part 4b the one from the black spotlight 1 emitted electromagnetic radiation energy 4a immediately from the recipient 2 to the black spotlight 1 returned and a second black spotlight 1 gives the part 4d the electromagnetic radiation energy 4c which is on the receiver 2 has been passed through and has not been absorbed back to the recipient 2 and consequently about 4b again on the former black spotlight 1 from.

Instead of the second, the recipient 2 subordinate, black spotlight 1 there is also the possibility of a mirror 5 with a degree of reflection of 100%, with the task of not absorbing electromagnetic radiation energy 4c . 4d and 4b to the preceding black spotlight 1 to be returned without loss. ( 5 ) That other focusing devices 6a and 6b as optical systems for focusing the electromagnetic radiation energy 4a to 4d are to be used, shows in 6 that the recipient 2 for electromagnetic radiation energy 4a to 4d an optical system 6 how to put a mirror in front or how in 7 shown to the recipient 2 is to be adjusted.

Different interchangeable variants of the individual components represented in the method according to the invention 1 to 3 as well as 5 and 6 to the electromagnetic radiation energy 4a to 4d are optimally absorbed in such a way that the energy conversion of the thermal energy into electrical energy can take place without loss 8th to 11 summarized.

In summary it should also be noted that as the recipient 2 a Herzscher dipole is used to increase the power yield in order to receive a larger frequency range and to convert it into electrical energy. Or, instead of the Herz dipole, at least one conductor loop can be used to convert the electromagnetic radiation energy into electrical energy.

The use of a second black spotlight 1 at the end of the process chain replaces the tasks of the filter 3 and / or the mirror 5 ,

1

black spotlight

2

receiver

3

filter

4a to d

electromagnetic radiant energy

5

mirror

6

optical system

Claims (5)

Method for converting energy, in particular thermal into electrical energy, using a black radiator ( 1 ), which delivers a corresponding power at a given temperature, and a receiver ( 2 ) for electromagnetic radiation energy, characterized in that the black radiator ( 1 ) and the recipient ( 2 ) are merged in such a way that the receiver ( 2 ) from the electromagnetic radiation field of the black body ( 1 ) Dissipates energy. Method for energy conversion according to claim 1, characterized in that the electromagnetic radiation energy ( 4a ) in each wavelength using the radiator ( 1 ) is emitted by means of a filter ( 3 ) electromagnetic radiation energy ( 4a ) in electromagnetic radiation energy ( 4b ) and ( 4c ) that the remaining electromagnetic radiation energy ( 4b ) to the black spotlight ( 1 ) and then absorbed and that the electromagnetic radiation energy ( 4c ) in the receiver ( 2 ) is converted into electrical energy and then dissipated. Device for carrying out the method according to one of the preceding claims 1 to 2 according to a basic principle, which is characterized in that a black radiator ( 1 ) before at least one filter ( 3 ) and / or at least one mirror ( 5 ) and / or at least one optical system ( 6 ) to focus the electromagnetic radiation energy ( 4a . 4b . 4c . 4d ) and a recipient ( 2 ) is to be arranged. Device for carrying out the method according to one of the preceding claims 1 to 3 according to a basic principle, which is characterized in that an additional black radiator ( 1 ) instead of at least one filter ( 3 ), the at least one mirror ( 5 ) and the at least one optical system ( 6 ) is to be classified. Device for carrying out the method according to at least one of the preceding claims 1 to 4, characterized in that as a further possibility the receiver ( 2 ) in the body of the black body ( 1 ) is to be included.