TR2021009069A2 - ENERGY PRODUCTION SYSTEM - Google Patents

Abstract

The invention relates to an electrical energy production system containing the sun, atmospheric air, subsoil and sea water as energy sources. The invention relates to geophysics, meteorology, marine and thermodynamic sciences. The system used in the invention can be given as an example of the heat engine described in thermodynamics.

Description

DESCRIPTION ARI ENERGY PRODUCTION SYSTEM Technical Field The invention relates to an electrical energy production system containing the sun, atmospheric air, subsoil and sea water as energy sources. The invention is related to geophysics, meteorology, marine and thermodynamic sciences. The system used in the invention can be given as an example of a heat engine described in thermodynamics. Prior Art Heating and cooling systems use a heat pump to transport the existing heat energy in one environment to another environment in exchange for the work done by consuming electrical energy. Accordingly, heat pumps are used for both heating and cooling, and today almost all cooling systems are based on heat pump technology. It is widely used in developed countries around the world. With this system, ~75% of the heat is provided. The remaining ~25% is used as electrical energy. Heating and cooling are provided. The center of our world is ~6000°C. This temperature is transmitted from the center of the earth to the earth in accordance with the 2nd Law of Thermodynamics. Depending on the structure of the earth, various temperatures also reach the earth. Sometimes it is +40°C or +130°C, as in thermal waters. is +13°C. Some regions are very good conductors, while others are poor conductors. As a result, it comes to the earth at a certain temperature and this heat flow is regular. On the other hand, due to the influence of the sun on the earth, there are differences in temperature depending on the seasons, day and night. Temperature affects the outer shell up to a certain depth. At the intersection of these changes on the surface and the temperatures coming in the same direction from the center of the earth, the temperature remains constant depending on the region. This fixed code mentioned is mainly implemented in our invention. Various improvements have been made in the technique regarding the energy production system. In the state-of-the-art patent document numbered U88276383B2, a closed circuit is mentioned in which the refrigerant is used to drive a turbine that can be used to drive an electric generator or for other suitable purposes. The mentioned document does not contain information regarding the use of four separate energy sources: sun, atmospheric air, subsoil and sea water. As a result of advances in technology, existing electricity generation systems cause air pollution due to the fossil fuels they use. For this reason, there was a need to develop the energy production system that is the subject of the invention. Purpose of the Invention The purpose of this invention is to realize an energy production system that does not harm nature by using air instead of fossil fuel. Another purpose of this invention is to realize an energy production system that eliminates the poisoning and carcinogenic effects of CO, C02 and NOx, lCl, sulfur oxides, lead compounds, gasoline and diesel vapors that come out of the exhaust of fuels such as gasoline, diesel and LPG. Another purpose of this invention is to create a clean world with an electricity production system that does not emit toxic gases while producing electricity. Detailed Description of the Invention The energy production system implemented to achieve the purpose of this invention is shown in the attached figures. These shapes; Figure 1: Schematic view of the energy production system. Figure 2: An abbreviated diagram of the solar energy flow diagram of the energy production system. Figure 3: An abbreviated diagram of the soil energy flow diagram of the energy production system. Figure 4a: View of the underground serpentine diagram of the energy production system. Figure 4b: It is the underground sectional view of the underground serpentine diagram of the energy production system. Figure 5: Above ground view of the flat-surfaced solar collector shield of the energy production system. Figure 6: Side view of the flat-surface solar collector scheme of the energy production system. Figure 7: A cross-sectional view of the flat-surface solar collector scheme of the energy production system. The parts in the figures are numbered one by one, and the equivalents of these numbers are given below. 1. Compressor 2. Heater 3. Heater 11 4. Solar collector. Turbine 6. Alternator 7. Blower Serpentine Compressed air tube. Exhaust Outlet Air filter Glass cover Absorber plate Air flow duct Insulation Current frequency changer Transmitter Electric motor The invention is an energy production system; Compressor (l) in the system, heater I (2) connected to the compressor (1), heater II (3) connected to the compressor (1), alternator (6) connected to the turbine (5), and blower (7) coil (8), compressed air tube (10) connected to the turbine (5), exhaust outlet (11) connected to the turbine (5), heat exchanger (12) connected to the pump (9), - air connected to the compressor (1) filter (13), - Solar collector (4) with heater l (2), heater l (2) with compressor (1), solar collector (4) with compressor (1), turbine (5) with heater l (2) , blower (7) with serpentine (8), air filter (13) with compressor (1), serpentine (8) with compressor (1), heater II (3) with turbine (5) and compressed air cylinder (10) with turbine It contains the valve (14) parts positioned between (5). With the electrical system of the invention, only electricity is produced. The system subject to the invention contains four energy sources. These are sun, air, soil, sea or lake. They are solar air collectors that we use to obtain hot water from the solar energy source in the system of the invention (4). How it is arranged is shown in Figure 5 and its cross-section is shown in Figure 7. It consists of solar collector (4), glass cover (15), absorber plate (16), wing (17'), air flow section (18) and insulation (19). The rays coming from the sun have short wavelengths. Solar rays pass through the collector glass cover (15) (single glass or double glass) and are absorbed by the absorber plate (16) and converted into heat. The absorber plate (16) heats up. Since its temperature is low, the light it emits has a large wavelength. These rays cannot pass through the glass cover material, thus the absorber plate (16) heats up and its temperature increases. In this way, the air passing under the absorber plate (16) is heated. Circulation is achieved by circulating air with the compressor (1). Hot water or drying etc. It is used for different purposes. The heated air is prevented from escaping outside by the insulation layer (19). In air solar collectors (4), wings (17) are used to increase the surface. All collectors (4) face south and are positioned inclined. Cold air comes in from below, hot air comes out from above. This hot air is collected and goes to the turbine (5). In the system of the invention, the cold air taken from the underground is compressed with the help of the compressor (1). The compressed air is heated by the air heater I (2) and then the solar collector (4) to ~60°C with the help of the fan (21). The heated air goes to the turbine (5). It rotates with the air inside the turbine (5) and produces heat. Electricity is produced by the alternator (6) connected to the turbine (5). The air coming out of the turbine (5) goes underground again and there is a coil (8) underground to further cool the air. The serpentine (8) can preferably be a winged polyethylene pipe. It carries the point where the temperature remains constant to the soil surface. In this way, we are saved from a great deal of expense, because the insulation wall will not be built until the constant temperature. With the insulation, we will make the area on the sides wider. The heat flow will be reset. A second method is to find a constant temperature at a constant annual depth by measuring it through experiments. The area determined up to this depth is isolated from the sides and insulation is made on the area. When the weather is cold, the underground is warm. In the system of the invention, this temperature is taken from the underground coil (8) with the help of a blower (7) and passed through the heater 11° (3). With the help of the compressor (l), the cold air taken from the external environment is compressed. The heated air in the heater IP (3) goes to the turbine (5), expands, turns the alternator (6) and produces electricity. The compressor (l) continues to operate when there is no sun. The solar collector (4) (solar collector groups) is disabled. Only heater I (2) remains active and heats the compressed air. The heated pressurized air is sent to the turbine (5). It produces soot thanks to the air in the turbine (5). Electricity is produced by the alternator (6) connected to the tribune (5). When the weather is very cold, salty sea water freezes below -2°C, and lake water freezes at 0°C. Lake water under ice is +4°C3. The water taken from under the ice in the sea and lake is water containing antifreeze, heated by a heat exchanger (12). It is brought to heater H (3) with the help of a pump (9). The system that transfers water from the heat exchanger (12) to heater II (3) with the pump (9) operates as a closed circuit. The cold air sucked and compressed from the compressor (l) on the opposite side is heated. The heated compressed air goes to the turbine (5), expands and drives the alternator (6) and produces electricity. Since the outdoor environment is very cold, all necessary insulation and precautions are taken. Transmitter (22) serves as a temperature sensor. The electric motor (23) enables the compressor (1) motor to be controlled by the current frequency changer (20). The electric motor (23) receives the temperature signal from the transmitter (22) and adjusts the speed (rpm) of the compressor (1) motor. Thanks to the system of the invention, energy (electricity) is produced continuously, 24 hours a day, 7 days a year, in 4 seasons of the year, without the need for any fuel. Environmental temperature; It produces minimum electricity at 6-70 C below and above the underground constant temperature and is not efficient. The system subject to the invention can be installed anywhere on the mainland and produces electricity. No fossil fuel is used in the system subject to the invention, it is completely green energy. The system subject to the invention will be even more valuable after fossil fuels are exhausted and Paris The most ideal electricity production is the one produced by wind and photovoltaic (solar) panels. But these cannot produce electricity on demand. For example, it cannot produce electricity when the weather is not windy, when it is cloudy, or at night. The electricity generation system of the invention produces electricity even in the absence of wind and sun. The electricity generation system also meets the electricity needs used in heat pumps. Liquid and steam are heated and cooled at constant pressure, the fluid is compressed isentropically in pumps, the fluid expands isentropically in the turbine (5), the differences in Kinetic and Potential energies are negligible, and this is expressed as internal energy in h:u+pv. Continuous operation It is accepted that the conditions are valid (SASA), the heat loss in the heater, pipes, turbine and pumps is isolated in a negligible manner, the axial heat conduction is very low and negligible, the continuous equation is always satisfied (SASA), and the properties of the fluid remain constant. There is a compressed air tube (10) at the inlet (5). This compressed air tube (10) is at system pressure. Before the system starts, it receives a signal from the control panel and the solenoid valve (14) is opened and pressurized air is sent to the turbine (5). When the system reaches full speed, the compressed air cylinder (10) fills again with the signal it receives from the control panel and the valve (14) closes, the alternator (6) integrated into the turbine (5) operates and produces electricity. While producing electricity with the system subject to the invention, it does not emit any toxic gases and clean energy sources are used. The system of the invention does not include the use of toxic gas that causes cancer. The system subject to the invention can produce electricity 24 hours a day, 365 days a week. With the system of the invention, the use of 154 kV, 380 kV and 750 kV giant electric poles that we see in the fields will decrease. Electricity will be produced wherever we want on the mainland. In the system subject to the invention, no fossil fuel will be used and it receives its energy from solar radiation, air, soil and sea. With the system of the invention, the world will cool down, the ozone layer will not disappear, and the glaciers will not melt. Low lands will not be flooded. No fossil fuels will be used. The system subject to the invention provides environmentally friendly production by taking its energy from solar radiation, air, soil and sea. TR TR TR TR

Claims (1)

1.CLAIMS The invention is an energy production system; - Compressor (l) in the system, - Heater I (2) connected to the compressor (1), - Heater II (3) connected to the compressor (1), - Solar collector (4) connected to the heater I (2), - It is characterized by containing heater I (2), heater II (3) and turbine (5) parts connected to heater II (3). The invention is an energy production system as claimed in the claim and is characterized by containing an alternator (6) connected to the turbine (5). The invention is an energy production system as in claim 1 and is characterized by containing a blower (7) connected to heater II (3). The invention is an energy production system as in claim 3 and is characterized by containing a serpentine (8) connected to the blower (7). The invention is an energy production system as in claim 1 and is characterized by containing a pump (9) connected to heater II (3). The invention is an energy production system as in claim 1 and is characterized by containing a pressurized air tube (10) connected to the turbine (5). The invention is an energy production system as in claim 1 and is characterized by containing an exhaust outlet (11) connected to the turbine (5). The invention is an energy production system as in claim 1 and is characterized by containing a heat exchanger (12) connected to the pump (9). The invention is an energy production system as in claim 1 and is characterized by containing an air filter (13) connected to the compressor (1). The invention is an energy production system as in any of the above claims, heater I (2) and solar collector (4), compressor (1) and heater I (2), compressor (1) and solar collector (4), heater I (2). ) with turbine (5), blower (7) with serpentine (8), air filter (13) with compressor (l), serpentine (8) with compressor (l), heater II (3) with turbine (5) and compressed air It is characterized by containing a valve (14) positioned between the tube (10) and the turbine (5). TR TR TR TR