Explain the transformation of energy in hydroelectric power plant?
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Dynamic Energy Transformations: Hydroelectric Power Plants
A hydroelectric power plant harnesses the energy found in moving or still water and converts it into electricity.
Moving water, such as a river or a waterfall, has mechanical energy. ‘Mechanical energy is the energy that is possessed by an object due to its motion or stored energy of position.’ This means that an object has mechanical energy if it’s in motion or has the potential to do work (the movement of matter from one location to another,) based on its position. The energy of motion is called kinetic energy and the stored energy of position is called potential energy. Water has both the ability and the potential to do work. Therefore, water contains mechanical energy (the ability to do work), kinetic energy (in moving water, the energy based on movement), and potential energy (the potential to do work.)
The potential and kinetic/mechanical energy in water is harnessed by creating a system to efficiently process the water and create electricity from it. A hydroelectric power plant has eleven main components. The first component is a dam. The dam is usually built on a large river that has a drop in elevation, so as to use the forces of gravity to aid in the process of creating electricity.
Gravity will force the water to fall to a lower position through the intake and the control gate. They are built on the inside of the dam. When the gate is opened, the water from the reservoir goes through the intake and becomes translational kinetic energy as it falls through the next main part of the system: the penstock. Translational kinetic energy is the energy due to motion from one location to another. The water is falling (moving) from the reservoir towards the turbines through the penstock.
The generators are comprised of four basic components: the shaft, the excitor, the rotor, and the stator. The turning of the turbines powers the excitor to send an electrical current to the rotor. The rotor is a series of large electromagnets that spins inside a tightly wound coil of copper wire, called the stator. “A voltage is induced in the moving conductors by an effect called electromagnetic induction.” The electromagnetic induction caused by the spinning electromagnets inside the wires causes electrons to move, creating electricity. The kinetic/mechanical energy in the spinning turbines turns into electrical energy as the generators function.
The transformer, another component, takes the alternating current and converts it into higher-voltage current. The electrical current generated in the generators is sent to a wire coil in the transformer. This is electrical energy. Another coil is located very close to first one and the fluctuating magnetic field in the first coil will cut through the air to the second coil without the current. The amount of turns in the second coil is proportional to the amount of voltage that is created. If there are twice as many turns on the second coil as there are on the first one, the voltage produced will be twice as much as that on the first coil. This transference of electrical current is electrical energy. It goes from the generators to one coil, and then is transferred through an electromagnetic field onto the second coil. That current is then sent by means of power lines to the public as electricity.
There is another type of hydroelectric power plant other than the conventional type described above. It is called a pumped-storage plant. In these plants, there are two reservoirs for water. As described above, in a conventional hydroelectric power plant, there is one reservoir that holds the water created by the dam. The water from there flows through the plant and creates electricity, and finally reenters the river. In pumped-storage plants, there is a lower reservoir that holds the water that exits the plant. It is held there as potential energy. It has the potential to do work, but isn’t yet doing anything. From there, it can then be pumped back to the upper reservoir by using a reversible turbine and used again. In this method, there is more water available to be used to produce electricity during periods of peak production or when the river does not supply enough water to run the plant. For example, if there is a drought in the area, a river may not be able to supply enough water to the plant to produce as much electricity as is needed.
Hydroelectric power plants use the resources that are readily available to us and do not create pollution. They are excellent learning devices; they teach us about energy in its different forms.
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I hope it's help you......!!!!!
please tick the brainliest answer.
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Dynamic Energy Transformations: Hydroelectric Power Plants
A hydroelectric power plant harnesses the energy found in moving or still water and converts it into electricity.
Moving water, such as a river or a waterfall, has mechanical energy. ‘Mechanical energy is the energy that is possessed by an object due to its motion or stored energy of position.’ This means that an object has mechanical energy if it’s in motion or has the potential to do work (the movement of matter from one location to another,) based on its position. The energy of motion is called kinetic energy and the stored energy of position is called potential energy. Water has both the ability and the potential to do work. Therefore, water contains mechanical energy (the ability to do work), kinetic energy (in moving water, the energy based on movement), and potential energy (the potential to do work.)
The potential and kinetic/mechanical energy in water is harnessed by creating a system to efficiently process the water and create electricity from it. A hydroelectric power plant has eleven main components. The first component is a dam. The dam is usually built on a large river that has a drop in elevation, so as to use the forces of gravity to aid in the process of creating electricity.
Gravity will force the water to fall to a lower position through the intake and the control gate. They are built on the inside of the dam. When the gate is opened, the water from the reservoir goes through the intake and becomes translational kinetic energy as it falls through the next main part of the system: the penstock. Translational kinetic energy is the energy due to motion from one location to another. The water is falling (moving) from the reservoir towards the turbines through the penstock.
The generators are comprised of four basic components: the shaft, the excitor, the rotor, and the stator. The turning of the turbines powers the excitor to send an electrical current to the rotor. The rotor is a series of large electromagnets that spins inside a tightly wound coil of copper wire, called the stator. “A voltage is induced in the moving conductors by an effect called electromagnetic induction.” The electromagnetic induction caused by the spinning electromagnets inside the wires causes electrons to move, creating electricity. The kinetic/mechanical energy in the spinning turbines turns into electrical energy as the generators function.
The transformer, another component, takes the alternating current and converts it into higher-voltage current. The electrical current generated in the generators is sent to a wire coil in the transformer. This is electrical energy. Another coil is located very close to first one and the fluctuating magnetic field in the first coil will cut through the air to the second coil without the current. The amount of turns in the second coil is proportional to the amount of voltage that is created. If there are twice as many turns on the second coil as there are on the first one, the voltage produced will be twice as much as that on the first coil. This transference of electrical current is electrical energy. It goes from the generators to one coil, and then is transferred through an electromagnetic field onto the second coil. That current is then sent by means of power lines to the public as electricity.
There is another type of hydroelectric power plant other than the conventional type described above. It is called a pumped-storage plant. In these plants, there are two reservoirs for water. As described above, in a conventional hydroelectric power plant, there is one reservoir that holds the water created by the dam. The water from there flows through the plant and creates electricity, and finally reenters the river. In pumped-storage plants, there is a lower reservoir that holds the water that exits the plant. It is held there as potential energy. It has the potential to do work, but isn’t yet doing anything. From there, it can then be pumped back to the upper reservoir by using a reversible turbine and used again. In this method, there is more water available to be used to produce electricity during periods of peak production or when the river does not supply enough water to run the plant. For example, if there is a drought in the area, a river may not be able to supply enough water to the plant to produce as much electricity as is needed.
Hydroelectric power plants use the resources that are readily available to us and do not create pollution. They are excellent learning devices; they teach us about energy in its different forms.
-----------------------
-----------------------
I hope it's help you......!!!!!
please tick the brainliest answer.
Answered by
21
The transformation of the energy in the hydroelectric power plant is as follows:
Explanation:
- The hydropower stations uses the energy from the falling water from the river or dam to generate electricity.
- The kinetic energy of the waves of water is used to move the turbine. This way the kinetic energy of water is converted into mechanical energy.
- The mechanical energy so produced is transferred to the electrical generator to generate the electricity.
- The electricity is distributed to electric stations, buildings and industries.
Learn more about hydroelectric power plant:
Explain hydroelectric power plant ?: https://brainly.in/question/5595439
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