DE202006017581U1 - Solar power generating device for retrofitting of existing solar panel system, has cooling circuit with cooling medium pump, evaporator and generator, where generator is coupled with relaxation body for power generation - Google Patents

Abstract

The device has a solar panel and a cooling circuit, where the cooling circuit has a condenser (6), cooling medium pump (7) for driving a cooling medium and a dehumidifier. An evaporator (1) is thermally connected with the solar panel or the solar panel is implemented as the evaporator. A generator (5) is coupled with a relaxation body for power generation, where the units of the cooling circuit are implemented as standard units.

Description

1.1 Technical area

The The invention relates to a device for self-sufficient power generation by solar thermal coupling to the ORC process and is especially one Such device in the at least one solar collector with a cooling circuit in which using standard assemblies of the dextrorotatory Refrigeration process takes place.

1.2 State of the art

Electricity generation via solar technology is currently only about Photovoltaic systems possible, there with conventional Solar thermal systems usually none for the power generation required Termperaturen can be achieved. Of the average efficiency is in conventional photovoltaic systems about 8-10%.

One Another disadvantage is; the day and night care only over Accumulators with downstream inverter is possible.

The Prices per 1 KW peak output with conventional photovoltaic systems currently range from 4,800 to 5,500 euros investment costs and are relatively high.

2. Presentation the invention

Of the The present invention is therefore based on the object, a device to provide the type described above, the said Disadvantages avoids, and in particular so equipped, electricity from solar heat efficient, inexpensive and self-sufficient.

According to the invention is a device for self-sufficient power generation by means of solar thermal Provided coupling to the ORC process, the a solar collector and a cooling circuit includes, wherein the refrigeration circuit a refrigerant pump to drive the refrigerant, a dryer, an evaporator, the evaporator with the solar collector thermally coupled or the solar collector continues as an evaporator accomplished is, a relaxation organ and a power generation coupled thereto Generator and a capacitor includes. According to the invention Components of the refrigeration circuit as Standard assemblies executed, So that the Device in the sense of a kit quickly and inexpensively Standard assemblies, such as plate heat exchangers, Compressor, refrigerant pumps and generators from the industry can be built.

According to one Aspect of the invention is the solar collector in a collector circuit, in which a thermal oil circulated, arranged and the evaporator and according to a embodiment the invention, a preheater upstream of the evaporator in the refrigerant circuit, are thermally coupled to the collector circuit.

Further advantageous embodiments of the invention are defined in the subclaims or arise for the expert from the embodiments described below the invention, based on which the subject matter of the invention is explained in more detail. Show it:

1 a block diagram of a first embodiment of the invention;

2 a block diagram of a second embodiment of the invention; and

3 a block diagram of the Sollarkollektors according to another embodiment of the invention.

1 shows a device according to a first embodiment of the invention, according to a dextrorotatory cooling process to a solar collector surface 8th is connected. This is particularly necessary, as can be generated directly at low temperature level no electricity. The collector circuit is filled with thermal oil and thus transfers its heat to the evaporator 1 and the preheater 2 , The refrigerant, eg pentane, evaporates from 34 ° C and is in the refrigerant circuit through the refrigerant pump 7 driven and brought to evaporation pressure. The refrigerant passes through the dryer 12 and is preheated in the preheater, which is connected in series with the evaporator. The refrigerant removes part of the heat from the thermal oil in the evaporator by evaporation and passes into a turbine for expansion 4 as a relaxation organ. To the turbine is the generator 5 mechanically coupled. To produce a relaxation or enthalpy gradient, after the turbine is a preferably air-cooled condenser 6 connected. The outside temperature determines the condensation temperature of the refrigerant. This closes the refrigerant circuit.

For a continuous power generation is according to a particular embodiment in the collector circuit a memory 11 according to 1 intended. By switching off the collector via a controller 9 Temperature or time controlled now the heat is removed from the memory.

According to a further embodiment, an electrical power limitation, realized via a limiting valve 10 , which allows a continuous removal of heat.

Advantageous is that the Temperatures in the night are usually lower, so that the condensation temperature is lower and thus the efficiency of the device is greater.

For the refrigeration circuit become standard assemblies, such as plate heat exchangers, compressors, refrigerant pumps and generators used in the respective industry.

2 shows a second alternative embodiment of the invention according to the to improve the process efficiency of the working material, such as pentane, directly in the solar collector 8th is evaporated., ie without the interposition of a heat transfer medium. In this case, for continuous operation, an accumulator / inverter combination 13 intended. The working material evaporates in an inner tube system of the solar collector. The tube system is vacuum insulated against heat load to the outer, translucent envelope.

3 shows a further embodiment of the invention, is dispensed with in the Sollarkollektor on an inner pipe system and the working fluid 34 directly on the wall of the solar collector as a liquid film 34 is evaporated. In this case, the solar collector or its sheath stands 32 under the pressure of the vaporising gas phase 35 , To the incident solar energy 31 To bundle, the sheath on the side facing away from the sun inside or outside according to another embodiment, a Verspeigelung 33 on.

To a further improvement of the process efficiency is according to a another embodiment (not shown) an internal heat exchanger (recuperator) between Turbine outlet and condenser primary side and between pump and Evaporator on the secondary side connected.

According to one embodiment The invention is alternatively in the ORC module or the refrigeration circuit of the device with other suitable refrigerants or working materials, their boiling and condensation temperature the application case, or it is by mixing individual components an optimally adapted agent is produced. As an an example such a customized Agent is a mixture of butane, propane and pentane, wherein the mixture is made by the skilled person so that yourself a desired one Boiling point and / or a desired evaporation enthalpy established.

According to one embodiment The invention is used as a capacitor or housing of the refrigeration circuit or ORC module a corresponding assembly of a condensing unit from the refrigeration industry modified and used.

According to one embodiment the invention is a rejuvenating organ as a rebuilt vane motor, Cell compressor, the turbine of an exhaust gas charger or scroll or Screw compressor or alternatively a Roots blower used.

According to one embodiment The invention is in the refrigeration circuit a recuperator for preheating used. The working substance in the pressure-resistant pipe system a thermal solar collector evaporated. The pipe system is located then preferably at the focal point of a vacuum insulated Concave mirror.

According to one embodiment the invention, the working fluid pump and the condenser fan is speed controlled executed to represent the boiling pressure line of the working substance. Leadership is included the temperature difference of the working substance at the evaporation outlet minus saturation temperature, overheating to regulate and in particular to avoid.

According to one embodiment The invention relates to energy storage for the night needs in daytime operation charged electric batteries.

According to one embodiment the invention is used instead of the generator or in combination with the generator a refrigerant compressor driven by a cold steam system.

According to one embodiment of the invention, the working fluid flows directly through a thermal solar collector. By absorption of solar energy, which was bundled by optical systems and mirrors, then evaporates the agent. According to one embodiment of the invention, the optical system is in the simplest case of one or more flameproof, translucent tubes, as shown schematically in FIG 3 shown

According to one embodiment of the invention the device further comprises a DC generator with inverter, in order to enable power supply in network operation. Alternatively, a Asynchronous generator used by the public grid excitable is.

According to one embodiment The invention comes in the coming in the device used Evaporators, dryers, collectors, quick couplings, fittings and sensor from refrigeration.

According to one embodiment of the invention the device has a microprocessor control with interface, Display and instantaneous power display for controlling the device.

According to one another embodiment of the invention the device further includes a thermal storage which is so with the rest Components of the device is coupled to that with the help of Device solar thermal generated thermal energy as possible is efficiently storable, then preferably this energy during a Period of lack or diminution of sunlight, e.g. at night, to use power generation.

The inventive device is due to its simple structure and the associated Low cost especially suitable for solar power generation with mains supply, especially in island operation. With exclusive Island operation is to start the refrigerant pump, a battery / inverter pre-circuit necessary. The expected efficiency is between 15-20%, and thus significantly higher as conventional Photovoltaic panels. In comparison, the collector area and reduce the price about 50%.

One Use of the device according to the invention is in the retrofit of existing solar collector systems, production of ORC modules for the above-described solar thermal coupling with solar collectors and, for example, in the third world for self-sufficient power generation.

Claims (16)

Device for self-sufficient power generation by means of Solar thermal coupling to the ORC process, comprising a solar collector and a refrigeration circuit, taking the refrigeration circuit a refrigerant pump to drive the refrigerant, a dryer, an evaporator, the evaporator with the solar collector thermally coupled or the solar collector continues as an evaporator accomplished is, a relaxation organ and a power generation coupled thereto Generator and a capacitor includes. Device according to claim 1, characterized in that that the components of the refrigeration circuit as standard assemblies from hydraulics, compressed air, -u. refrigeration technology accomplished are. The device according to claim 1 or 2, characterized in that as a capacitor, the corresponding assembly of a Condensing unit off the refrigeration industry modified and used. The device according to one of the preceding claims in that as a relaxation organ a rebuilt vane motor, cell compressor, the turbine of an exhaust gas charger, a Roots blower or scroll or screw compressor used become. The device according to one of the preceding claims in that as a refrigerant pump a gear pump is used. The device according to one of the preceding claims This makes the evaporator a plate evaporator in dry or flooded Type is. The device according to one of the preceding claims in that the refrigerant is evaporated directly in the solar collector. The device according to one of the preceding claims in that the device in the refrigeration circuit a recuperator for preheating comprises the solar collector having a thermal solar collector pressure-resistant pipe system by the refrigerant evaporates. The device according to one of the preceding claims in that the refrigerant pump and a fan of the capacitor are speed controlled. The device according to one of the preceding claims in that the device comprises electric batteries for energy storage for the Night needs included. The device according to one of the preceding claims in that instead of the generator or in combination with the generator a refrigerant compressor a cold steam system is used. The device according to one of the preceding claims in that the solar collector is designed so that the refrigerant directly flows through the solar collector and there by the absorption of solar energy by optical Systems and mirrors of the solar collector was bundled, evaporated. The device according to one of the preceding claims in that the device further comprises a DC generator Inverter or a grid-excited asynchronous generator. The device according to one of the preceding claims this means that the device evaporator, dryer, collector, quick release couplings, Fittings and sensors comprises those from refrigeration come. The device according to one of the preceding claims, characterized in that the device further comprises a microprocessor control with interface, display and instantaneous power display included. The device according to one of the preceding claims in that the device further comprises a thermal store.