TR2023004201A2 - A WIND TURBINE THAT CAN USE SOLAR ENERGY ALONG WITH WIND ENERGY - Google Patents

Abstract

In order to obtain electrical energy from wind energy, the invention consists of at least one strut (10), at least one wing (11) that can rotate the strut (10) around itself by positioning it on the said strut (10), and a generator that can produce electricity from the rotational motion energy of the strut (10). 12) is related to a wind turbine (1). The novelty of the invention; It includes at least one water line (20) with which the wind turbine is associated in order to allow fluid heating from solar energy, the wing contains at least one solar collector (13) for heating the water carried from said water line (20), said solar collector (13) converts sunlight into a It is characterized by containing at least one reflector (14) in the receiver (15) to focus it, and being configured in such a way that the fluid desired to be heated or an intermediate fluid that will carry heat to this fluid is passed through the said receiver (15). Figure 1

Description

DESCRIPTION TECHNICALLY, THE INVENTION OF A WIND TURBINE THAT CAN USE SOLAR ENERGY ALONG WITH WIND ENERGY has at least one strut to obtain electrical energy from wind energy, at least one wing that can be positioned on the said strut and rotate the pylon around itself, and a generator that can produce electricity from the rotational motion energy of the strut. It is about a wind turbine. BACKGROUND ART Solar energy and wind energy are frequently used as renewable energy sources. Systems operating using both solar and wind energy are known in the art. Hybrid solar-wind energy systems: solar collectors and wind turbines are combined to produce electricity by using sunlight and wind energy simultaneously. The application numbered KR10205055GB1, known in the literature, is a system that produces electricity with hot water obtained by using wind and solar heat. This patent application aims to provide a more efficient energy production process for wind turbines using a series of sensors, data analysis and control systems. Accordingly, wind turbines generally rotate at a constant speed and cannot adapt to changing wind conditions. Therefore, the patent application proposes the use of a range of sensors and control systems to enable wind turbines to operate more efficiently and reliably. It describes a system that produces electrical and thermal energy from its energy. This patent application describes an internal conductive slab and its method developed for wind turbine towers. Accordingly, wind turbine towers are often equipped with high-voltage cables. As these cables rise along the tower, they may cause an increase in electrical and magnetic fields and may harm human health. Therefore, the patent application was developed to minimize such effects in wind turbine towers. To increase the amount of energy, a solar collector supported vertical wind turbine is suggested as a solution. This patent application aims to improve the materials used for wind turbine blades and the production method of these materials. Accordingly, wind turbine blades are often made using large-scale production techniques. However, the material and labor costs of these techniques are high, and it is difficult to establish a balance between the durability and aerodynamic properties of the wings. Among the disadvantages of this type of structures known in the art are the difficulties of integrating the two systems together and the costs incurred during this process. In addition, the fact that the desired amount of efficiency cannot be achieved in these systems reduces their preferability. In addition, solar collectors are exposed to mechanical load during the rotation of the wind turbine. This may have a negative impact on the durability of solar collectors. As a result, all the problems mentioned above have made it necessary to make an innovation in the relevant technical field. BRIEF DESCRIPTION OF THE INVENTION The present invention relates to a wind turbine to eliminate the above-mentioned disadvantages and bring new advantages to the relevant technical field. One aim of the invention is to provide a wind turbine that can convert energy from both wind and sun. Another aim of the invention is to produce a wind turbine that has reduced maintenance costs, can produce hot water and generate electricity. Another aim of the invention is to produce a wind turbine that can use renewable energy resources. In order to achieve all the purposes mentioned above and that will emerge from the detailed explanation below, the present invention is a device having at least one strut to obtain electrical energy from wind energy, at least one wing that can be positioned on the said strut and rotate the strut around itself, and a generator that can produce electricity from the rotational motion energy of the strut. is a wind turbine. Accordingly, its innovation includes at least one water line associated with the wind turbine to allow fluid heating from solar energy, the wing contains at least one solar collector for heating the water carried from the said water line, and the said solar collector contains at least one reflector to focus the sunlight on a receiver. The receiver is configured in such a way that the fluid that is desired to be heated or an intermediate fluid that will carry the heat to this fluid is passed. Thus, a structure that allows energy conversion from both wind energy and solar energy is obtained. The feature of a possible embodiment of the invention is that the solar collector is CSP type. The reflector is in parabolic form. Thus, it is ensured that the fluid to be heated can absorb heat more efficiently from solar energy. The feature of another possible embodiment of the invention is that there are at least three wings positioned at equal intervals around the strut. Thus, a balanced wing distribution on the strut is achieved. The feature of another possible embodiment of the invention is that the wing is connected to the strut and at the same time it contains at least one fluid pipe associated with the water line to carry fluid from the water line to the receiver. Thus, the need for carcass for the connection of the wings is eliminated and fluid can be transported to the receiver. The feature of another possible embodiment of the invention is that the water line includes at least one water tank. The said water line must contain at least one inlet connection and at least one outlet connection to connect it with mains water. Thus, the wind turbine can be connected to mains water. The feature of another possible embodiment of the invention is that it includes a control unit to be used in managing the wind turbine, said control unit includes at least one light sensor to detect the amount of light coming from the sun and at least one speed sensor associated with it to detect the wind speed. Thus, the wind turbine can be adapted to various operating conditions. The feature of another possible embodiment of the invention is that the control unit includes at least one manual mode that allows user control and at least one automatic mode so that it can control its operation according to its own data. Thus, the user's ability to manage the wind turbine is increased. BRIEF DESCRIPTION OF THE FIGURE In Figure 1, a representative perspective view of the wind turbine that is the subject of the invention is given. Figure 2 shows a representative top view of the wind turbine that is the subject of the invention. Figure 3 shows a representative side view of the wind turbine that is the subject of the invention. Figure 4 shows a representative schematic view of the control unit in the wind turbine of the invention. DETAILED DESCRIPTION OF THE INVENTION In this detailed explanation, the subject of the invention is explained only with examples that will not create any limiting effect on a better understanding of the subject. Figure 1 shows a representative perspective view of the wind turbine (1) that is the subject of the invention. Accordingly, the wind turbine (1) that is the subject of the invention is a device that converts wind energy into mechanical energy. Wind energy is transferred to the generator through a strut (10) that rotates by hitting the blades (11) of the wind turbine (1). The generator (12) produces electricity by converting mechanical energy into electrical energy. The usage areas of wind turbines (1) include power plants, homes and workplaces. The wind turbine (1) that is the subject of the invention allows energy conversion from solar energy in addition to wind. Figure 2 shows a representative top view of the wind turbine (1) that is the subject of the invention. The wind turbine (1) that is the subject of the invention serves both as a vertical wind turbine (1) and is used to heat a fluid using solar energy. The wind turbine (1) includes at least one pylon (10). Said pillar (10) essentially extends perpendicular to the ground. There is at least one blade (11) in the wind turbine (1) to rotate the strut around itself. Electricity production is achieved by rotating the said wing (11) around the strut (10). For this purpose, the strut (10) is connected to at least one generator (12). Said generator (12) can be an alternator or generator configured to produce electricity from motion energy. In the preferred embodiment of the invention, there are multiple blades (11) on the wind turbine (1). In a possible embodiment of the invention, there are at least three blades (11) on the wind turbine (1). Said wings (11) are positioned on the strut (10) at equal intervals. Thus, the wings (11) are ensured to rotate the strut (10) effectively. Figure 3 shows a representative side view of the wind turbine (1) that is the subject of the invention. Accordingly, the wind turbine (1) has a special blade (11) structure for use in heating liquids with solar energy. There is at least one solar collector (13) on the wings (11). The said solar collector (13) provides heating of the fluid coming from a water line (20) with the light received from the sun. The fluid coming from the water line (20) may be water that is desired to be heated, or it may be an intermediate fluid that allows heat transfer. The solar collector (13) in the wind turbine (1) can essentially be of the CSP type. The CSP type solar collector (13) allows the sunlight to be collected by focusing it at a single center, that is, a receiver (15), by means of at least one reflector (14). For this reason, the reflector (14) on the solar collector (13) may essentially have a parabolic form. The said receiver (15) may be an element located around the center of the parabolic reflector (14). It can be configured to carry the fluid that is desired to be heated through the water line (20). This fluid is tap water in the preferred embodiment of the invention. For this purpose, there is at least one water tank (21) on the water line (20). The mentioned water tank; (21) is structured to accumulate the water that is desired to be heated. The water tank (21) is preferably located on the side of the pillar (10) facing the ground. There is at least one inlet connection (22) and at least one outlet connection (23) on the water tank (21). The said inlet connection (22) allows water to enter into the water tank (21) and the said outlet connection (23) allows the discharge of the heated water in the water tank (21). In other words, the inlet connection (22) and the outlet connection (23) allow the water tank (21) to connect with mains water. There is at least one fluid pipe (24) on the water line (20). Said fluid pipe (24) may be associated with solar collectors (13) on one side and with the water tank (21) on the other side for heating the water in the water tank (21). The water that is preferably wanted to be heated is carried through the fluid pipe (24). For this purpose, the fluid pipe (24) may be positioned on the wings (11). In the wind turbine (1), preferably the arms extending to the blades (11) are provided entirely in the form of a fluid pipe (24). Thus, the need for an extra carcass manufacturing for the wing (11) is eliminated. In the wind turbine (1), the water carried in the fluid pipe (24) is heated. For this purpose, the fluid pipe (24) is passed through the receiver (15) part of the solar collector (13). In this way, the sunlight focused on the receiver (15) by means of the reflective (14) surfaces of the solar collector (13) is ensured to quickly heat the water in the fluid pipe (24). Figure 4 shows a representative schematic view of the control unit (30) located in the wind turbine (1) of the invention. Accordingly, the wind turbine (1) is associated with at least one control unit (30). The said control unit (30) is configured to manage the energy conversion of the wind turbine (1) from the sun, wind or both sun and wind. For this purpose, the control unit (30) may be associated with various sensors. The control unit (30) may be associated with at least one light sensor (31) to detect the amount of light coming from the sun. Similarly, the control unit (30) can detect the wind speed by associating with at least one speed sensor (32). In addition, there may be a memory unit (33) on the control unit (30). The said memory unit (33) enables the wind turbine (1) to enable energy conversion from wind, sun or both wind and sun, with the data defined on it. In addition, in a possible embodiment of the invention, the control unit (30) can be controlled manually or automatically. When the user chooses manual mode (34), he can make his own choice of energy conversion. In automatic mode (35), this choice is left to the control unit (30). The control unit (30) can be configured to adjust the position of the solar collectors (13) depending on the data it receives. In other words, the control unit (30) is configured to follow the solar collector (13) both around its own axis and around the strut (10) with a solar tracking system to which it is associated. Thus, the wind turbine (1) can be adapted according to user expectations. It becomes possible to produce both electricity and hot water from the wind turbine (1). Since there is less movement of parts in the wind turbine (1) during energy production, maintenance costs are also reduced. Since the wind turbine (1) of the invention contains two systems together and is smaller and lower profile than the wind turbines (1) in the current technique, it provides better settlement planning in urban areas. The scope of protection of the invention is specified in the attached claims and cannot be limited to what is explained in this detailed description for exemplary purposes. Because it is clear that a person skilled in the art can produce similar structures in the light of what is explained above, without deviating from the main theme of the invention. TR TR TR TR

Claims (10)

1.SYSTEMS The invention consists of at least one strut (10) to obtain electrical energy from wind energy, at least one wing (11) that can be positioned on the said strut (10) and rotate the strut (10) around itself, and a blade that can produce electricity from the rotational motion energy of the strut (10). It is a wind turbine (1) with a generator (12) and its feature is; It contains at least one water line (20) to which the wind turbine is associated in order to allow fluid heating from solar energy, the wing contains at least one solar collector (13) for heating the water carried from said water line (20), the said solar collector (13) converts sunlight into a The receiver (15) contains at least one reflector (14) to focus it, and the said receiver (15) is configured in such a way that the fluid to be heated or an intermediate fluid that will carry the heat to this fluid is passed. . 2. It is a wind turbine (1) according to claim 1 and its feature is; The solar collector (13) is CSP type. 3. It is a wind turbine (1) according to claim 1 and its feature is; The reflector (14) is in parabolic form. . 4. It is a wind turbine (1) according to claim 1 and its feature is; There are at least three wings positioned at equal intervals around the strut (10) of the wing (11). . 5. It is a wind turbine (1) according to claim 1 and its feature is; It connects the wing (11) to the strut (10) and at the same time contains at least one fluid pipe (24) associated with the water line (20) to carry fluid from the water line (20) to the receiver. . 6. It is a wind turbine (1) according to claim 1 and its feature is; The water line (20) contains at least one water tank (21). . 7. It is a wind turbine (1) according to claim 1 and its feature is; It contains at least one inlet connection (22) and at least one outlet connection (23) to connect the said water line (20) with mains water. . 8. It is a wind turbine (1) according to claim 1 and its feature is; It includes a control unit (30) to be used in management, said control unit (30) has at least one light sensor (31) to detect the amount of light coming from the sun and at least one speed sensor (32) to which it is associated to detect the wind speed. It contains. . 9. It is a wind turbine (1) according to claim 8 and its feature is; The control unit (30) contains at least one manual mode (34) that allows user control and at least one automatic mode (35) that allows it to control its operation according to its own data. 10. It is a wind turbine (1) according to claim 8 and its feature is; The control unit (30) is configured to manage the movement of the solar collector (13) both around its own axis and around the strut (10). TR TR TR TR