Not sure what you mean with "transfer into energy". No new energy is created, and no energy is destroyed. Nuclear fission converts nuclear energy (a type of potential energy) available in the atoms, into other types of energy, like heat.
Nuclear energy produced in the fuel appears as heat, which is then used to produce electricity through a standard steam turbine/generator:
- Water is heated by heat energy created through nuclear fission
- (Energy lost to surroundings)
- Steam turns a turbine (heat energy transformed into kinetic energy)
- (Energy lost to friction)
- Turbine powers a generator
- (Energy lost to friction)
- Kinetic Energy is transformed into Electrical Energy by the induced e.m.f.
In a nuclear reactor, we see nuclear energy (the energy contained in the nucleus of atoms) released, and the fission fragments carry away kinetic energy which is expressed as heat in the core of the reactor.
Now I am going to start with the energy conversions that take place inside a reactor. Energy cannot be made or destroyed it can only be converted from its different forms. The first conversion that takes place inside a nuclear reactor is that Nuclear energy that contains in a nucleus of radioactive or common element, the energy which keeps protons in a limited space even they repel each other. That energy is converted into thermal energy (Thermal Energy is heat energy). Thermal Energy is used to warm the water. The water has potential energy but when it is heated via thermal energy it has Kinetic energy. This Kinetic energy is used to make a turbine run. The work of turbine is to convert Kinetic energy into mechanical energy. The Generator converts Mechanical Energy into Electrical energy and that energy is supplied to us by wires. So there are 5 energy conversions that take place inside a reactor. First Nuclear energy to Thermal Energy via fission process, Thermal Energy to Kinetic Energy, Kinetic energy to Mechanical Energy and Mechanical energy to Electrical Energy or commonly known as Electricity.
Nuclear energy
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Heat in coolant
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Potential energy from steam
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Kinetic energy of turbine
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Electric energy
Fission of the Uranium (or Plutonium) releases energy which becomes absorbed by water, this water becomes heated and in turn causes the rotation of turbines which produce electricity.
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a place that generates nuclear energy
Nuclear mass --> energy conversion is most of it. Conventional explosives start it.
body
-- In the cores of stars, where nuclear fusion reactions are taking place. -- Inside the casing of a nuclear weapon at the moment of detonation. -- In the fuel rods in the core of a nuclear power generating station. -- At the point of collision in the experimental target area in a particle accelerator.
Chemical energy> Thermal(Heat) energy Heat energy> Rotating mechanical energy
a place that generates nuclear energy
a place that generates nuclear energy
Nuclear mass --> energy conversion is most of it. Conventional explosives start it.
body
the conversions are solar to chemical to light to heat
Electrical, Thermal, and Sound Energy.
-- In the cores of stars, where nuclear fusion reactions are taking place. -- Inside the casing of a nuclear weapon at the moment of detonation. -- In the fuel rods in the core of a nuclear power generating station. -- At the point of collision in the experimental target area in a particle accelerator.
You can either use a nuclear explosive or a nuclear power station to convert mass into energy or you can collide elementary particles at very high energies so that the energy released by their collision is converted to particles with mass.
Chemical energy to thermal energy to mechanical energy to electrical energy
Chemical energy> Thermal(Heat) energy Heat energy> Rotating mechanical energy
Nuclear energy is released when U-235 undergoes fission, and that takes place in nuclear reactors (or nuclear weapons). So a reactor is a thing constructed to produce nuclear energy.
At first SOUND energy converts to ELECTRICALenergy which once again converts to SOUND energy.