Steam
BWR = Boiling Water Reactor. In this type a certain proportion of the reactor coolant water is allowed to turn to steam (unlike in a PWR), this steam is separated out from the water after the reactor outlet and passes directly to the steam turbine.
The nuclear reactor heats water into steam which is used to drive a turbine which turns a generator.
In a PWR the pressure in the reactor primary circuit is kept high enough to prevent boiling, and heat is transferred to a secondary circuit at a lower pressure where steam is produced for the turbine. In a BWR a proportion of the water passing into the reactor is allowed to boil off feeding directly to the turbine. Otherwise, the reactor core itself is very similar.
The energy released in a nuclear reactor is in the form of heat. This heat is used to boil water and produce high pressure steam which then drives the turbine.
Radioactive decay generates heat. The heat is used in a reactor to boil water. The steam of the boiling water is used to drive a turbine which runs a generator to produce electricity.
Basically, nuclear power plants use the heat from a nuclear fission reaction to boil water The steaming water then turns a turbine that generates electricity.
turbine
BWR = Boiling Water Reactor. In this type a certain proportion of the reactor coolant water is allowed to turn to steam (unlike in a PWR), this steam is separated out from the water after the reactor outlet and passes directly to the steam turbine.
You rip apart an atom which releases great energy in the form of heat. The energy causes water to evaporate which turns a turbine. The turning turbine creates electricity. This is how a nuclear reactor works.
Yes, that is how the nuclear energy is transferred to the turbine/generator
The nuclear reactor heats water into steam which is used to drive a turbine which turns a generator.
A steam turbine/generating unit, or a naval vessel
The nuclear reactor heats water into steam which is used to drive a turbine which turns a generator.
In a PWR the pressure in the reactor primary circuit is kept high enough to prevent boiling, and heat is transferred to a secondary circuit at a lower pressure where steam is produced for the turbine. In a BWR a proportion of the water passing into the reactor is allowed to boil off feeding directly to the turbine. Otherwise, the reactor core itself is very similar.
It can't as nobody has figured out how to make a fusion reactor.
The energy released in a nuclear reactor is in the form of heat. This heat is used to boil water and produce high pressure steam which then drives the turbine.
Radioactive decay generates heat. The heat is used in a reactor to boil water. The steam of the boiling water is used to drive a turbine which runs a generator to produce electricity.