PL218098B1 - Home solar power air plant - Google Patents

Abstract

A system for converting solar energy into electric energy characterized in that it comprises at least three photovoltaic panels (1) arranged outside a building, a radial flow supply-exhaust fan (2), an air turbine (3) with at least three blades (8), a multiplying gear (5) and a synchronous generator (6).

Description

Description of the invention

The subject of the invention is a system for converting solar energy into electricity, especially in small households.

Technical solutions for generating electricity are known in the prior art. It is known from the Polish patent specification PL 207540 a hydropower plant for generating electricity by converting the energy of the water flow by means of a flow machine with at least one rotor, a generator driven by a rotor and a float for a flow machine, where the flow machine is permanently anchored and the rotor oriented in the direction of flow. From the Polish patent application P-372240, it is known to generate electricity from low-grade waste heat / solar energy, involving the use of a closed-cycle refrigerant loop. The pressurized coolant is pumped at ambient temperature through a heat exchanger (14) connected to a waste heat / solar energy source, then generates thermal energy upon conversion to high pressure gas. The heated / pressurized cooling gas is introduced into the expander (20) to drive the output shaft (26) by expanding the fluid to a chilled gas at about 0 psig gauge pressure. The cooled, gaseous refrigerant is condensed into a liquid at low pressure and ambient temperature and is recirculated under pressure to the heat exchanger. The expander is inversely connected to a gas compressor: the pressurized cooling gas is introduced where its normal outlet is, and the inlet becomes the end of the expander. The drop in pressure / temperature of the flowing mass of cooling gas causes the expander shaft to rotate, allowing mechanical energy to be picked up directly, or when coupled to a synchronous or inductive generator, it is used to generate electricity.

The aim of the invention is to produce electricity for the own needs of a household.

The system according to the invention has at least three photovoltaic panels located outside the building, a radial exhaust and supply fan, an air turbine having at least three blades, a multiplier gear and a synchronous generator. Preferably, the photovoltaic panels are placed on the roof of the building. Preferably, the photovoltaic panels are placed on the wall of the building.

Photovoltaic panels located outside the building, preferably on the roof or wall of the building, generate electricity which is stored in gel batteries.

The centrifugal exhaust-supply fan, located inside the building, is powered by electricity generated by photovoltaic panels. The air turbine comprises a rotor having at least three blades. Preferably, the rotor diameter is in the range of 0.5 to 1.5 m.

The centrifugal exhaust-supply fan, by generating an air stream with a speed of 15 to 30 m / s, drives a rotor with a diameter of 0.5 to 1.5 m of an air turbine, the shaft of which transmits power, torque and rotation through flexible couplings and gears. a multiplier on the shaft of a low-speed synchronous generator. Electricity is drawn from the synchronous generator by external devices.

The air sucked in from the outside by the fan after passing through the air turbine is thrown back outside the building. In summer, the exhaust air can be directed into the building as ventilation air.

The system according to the invention allows the use of solar energy in domestic housing conditions in order to generate enough electricity for personal use and the unused surplus can be sold on the open market. Photovoltaic power supply means that the installation does not require additional external installations.

The subject of the invention in an exemplary embodiment is shown in the drawing, in which Fig. 1 shows a system for converting solar energy into electricity, and Fig. 2 shows an air turbine used in the system.

P R Z Y K Ł A D I

The system has three photovoltaic panels 1 with a power of 240 W placed on the roof of the building, a radial exhaust and supply fan 2, an air turbine 3, flexible couplings 4, a multiplier gearbox 5 and a synchronous generator 6. The air turbine 3 consists of a polypropylene rotor 7 with three blades 8. The diameter of the rotor 7 is 1 m.

PL 218 098 B1

Photovoltaic panels 1 generate electricity, which is stored in gel batteries. The fan 2, powered by the electricity generated by the photovoltaic panels 1, generates an air stream with a speed of 15 to 30 m / s per turbine 3. The air stream produced by the fan 2 drives the rotor 7 of the turbine 3, the shaft of which transmits power, torque and rotation through flexible couplings 4, gear multiplier 5 to the shaft of a low-speed synchronous generator 6. Electricity is drawn from the synchronous generator 6 by external devices. A 6 synchronous generator produces electricity in the period of sunlight and until the batteries are exhausted after dark.

Claims (3)

A system for converting solar energy into electricity having at least three photovoltaic panels located outside the building and a synchronous generator, characterized in that it has a radial exhaust and supply fan, an air turbine having at least three blades and a multiplier gear. 2. Arrangement according to claim The method of claim 1, characterized in that the photovoltaic panels are placed on the roof of the building. 3. Arrangement according to claim The method of claim 1, characterized in that the photovoltaic panels are placed on a wall of the building.