TR2022012919A2 - ELECTRICITY GENERATION BY AIR AND LIQUID - Google Patents

Abstract

The invention realizes the generation of electricity with air and liquid without the need for external energy reinforcement. By using a pressure-resistant pipe or hose on the turbine (4), liquid from the liquid tank (2) part or air from the pressured tank (1) part is supplied with the help of the pressure control engine (3). With the help of the pressure control motor (3), liquid from the liquid tank (2) part or air from the pressured tank (1) part, the turbine (4) blades are rotated and again with the help of the return motor (10), liquid or pressurized tank is supplied to the liquid tank (2) part. Air is directed to part (1).

Description

DESCRIPTION METHOD OF ELECTRICITY PRODUCTION WITH AIR AND LIQUID Technical Field The invention is related to the production of electrical energy and the production of electricity with air and liquid, which provides continuous electricity production, without the need for external energy supplement. Known Status of the Technology Today, with the increase in population and the development of technology, houses, workplaces, factories, etc. It has led to an increase in electricity use in areas. Electricity is produced in dams, wind turbines and thermal power plants and transported to the area to be used with the help of high voltage lines. With the developing technology, there are innovative methods used in the production of electricity for the renewable energy system in the production of electrical energy for a more livable world. Among the methods used in current systems, there are systems that are innovative and developed in terms of efficiency in electricity production, especially those that produce electricity with the help of liquid flow. These systems are generally installed in stream beds with the help of water turbines. Hydroelectric power plants require high flow rate due to their structure. In cases where the fluid flow rate is not sufficient, additional energy is used to continue electricity production. An example of the known state of the art is TR2014/11021 and "Independent hydroelectric power plant system." The summary of the patent application titled is as follows. Independent hydroelectric power plant system is considered as an alternative to renewable energy sources, does not need any external energy source (carbon fuels, gas, electricity, heat, wind, sun, etc.), works by using its own liquid potential and recycling system, and uses all the energy produced in the system continuously. It is a system that produces in this way. In the recycling system, there is no use of the power produced in the power system. The system has the ability to gradually retain the stagnant liquid used to generate power and increase its potential. Each recycling system ultimately carries out liquid circulation intermittently, but only by using the potential available in the system. By increasing the number of power systems and recycling systems in the independent hydroelectric power plant system and/or enlarging their dimensions, the desired values can be achieved and the production of electrical energy at the desired power is ensured. The limits of the power to be produced and desired are determined by the dimensions, size and number of recycling systems of the system. Today, there are many different systems used to produce electrical energy. In these systems, there are inadequacies in the solutions in sustainable systems and therefore it is necessary to make development. Purpose of the Invention The invention is related to the production of electricity with air and liquid, which has been developed in addition to existing systems and provides additional advantages. Another purpose of the invention is to provide more efficient electricity production compared to existing systems. Another purpose of the invention is to obtain a long-lasting product that produces electrical energy automatically by using air or liquid. Explanation of Drawings Figure- 1 Schematic view of electricity production with the air and liquid of the invention. Reference Numbers 1. Compressed air tank 2. Liquid tank 3. Pressure control engine 4. Turbine. Alternator 6. Rectifier 7. Regulator 8. Loading control 9. Battery .Return motor 11.Inverter Detailed explanation of the invention The subject of the invention is electricity production with air and liquid, pressurized tank (1), liquid tank (2), pressure control motor (3). ), turbine (4), alternator (5), rectifier (6), regulator (7), loading control (8), battery (9), reversing motor (10) and inverter (11). In the method of generating electricity with air and liquid, which is the subject of the invention, liquid is pumped from the liquid tank (2) or air is pumped from the pressure tank (1) part with the help of the pressure control motor (3) by using a pressure-resistant pipe or hose onto the turbine (4). After the liquid or pressurized tank is pumped into the liquid tank (2) with the help of the pressure control engine (3), the turbine (4) blades are rotated and the liquid or pressurized tank is transferred to the liquid tank (2) part with the help of the return engine (10). Air is directed to part (1). Electrical energy is produced through the alternator (5) with the power generated by the turbine (4), which is directed onto the alternator (5) with the help of a suitable transmission element and allowed to rotate at the desired speed. The electrical energy produced by the alternator (5) is transferred to the regulator unit (7) and automatically adjusts the voltage to remain within certain limits. The electrical energy produced from the alternator (5) section is transferred to the rectifier unit (6) section, thus converting the AC current into DC current. In order to control the electrical load coming out of the rectifier unit (7), it is transmitted to the load control (8) section. After this part, the electric charge is transmitted to the battery (9) and stored. Usage area or TR TR from the battery (9) section with the help of inverter (11)

Claims (1)

1.CLAIMS. The subject of the invention is the production of electricity with air and liquid and its feature is; pressure tank (1), liquid tank (2), pressure control motor (3), turbine (4), alternator (5), rectifier (6), regulator (7), loading control (8), battery (9), It includes the reversing motor (10) and inverter (11) parts. . It is the production of electricity with air and liquid mentioned in Claim 1 and its feature is; It contains a turbine (4) that pumps liquid from the liquid tank (2) or air from the pressure tank (1) with the help of a pressure control motor (3) using a pressure-resistant pipe or hose. . It is the production of electricity with air and liquid mentioned in Claim 1 and its feature is; It contains a return engine (10) that allows liquid to be directed back to the liquid tank (2) or air to the pressure tank (1) part after the turbine (4) blades rotate. . It is the production of electricity with air and liquid mentioned in Claim 1 and its feature is; The turbine (4), which is allowed to rotate at the desired speed, contains an alternator (5) that enables the production of electrical energy by transferring power with the help of the appropriate transmission element. . It is the production of electricity with air and liquid mentioned in Claim 1 and its feature is; It contains a regulator unit (7) that automatically adjusts the voltage to remain within certain limits by transferring the electrical energy produced by the alternator (5). . It is the production of electricity with air and liquid mentioned in Claim 1 and its feature is; It has a rectifier unit (6) that converts the electrical energy produced by the alternator (5) into AC current and DC current. . It is the production of electricity with air and liquid mentioned in Claim 1 and its feature is; It contains a battery (9) that stores the electric charge after controlling the electric charge coming out of the rectifier unit (7) with the loading control (8). . It is the production of electricity with air and liquid mentioned in Claim 1 and its feature is; It contains an inverter (11) that enables the battery to be transferred to the usage area or to the grid via the battery (9). TR TR