steam turn turbine generates electricity?
your question is vague: are you referring to power generation of heat-dispersion mechanisms to prevent meltdown?
The source of heat in a nuclear power plant is the release of binding energy (Strong Atomic Force) that hold nuclei together.
A heat exchanger where the primary pressurised water produces steam in the secondary side which is at a lower pressure (in the PWR)
Rejected to the turbine cooling system, but this is the same in any power plant running on the Rankine cycle, whether nuclear or fossil fuelled
The heat exchanger is the device built for efficient heat transfer from one medium to another, whether the media are in direct contact or the media are separated by a solid wall so that they never mix.
From the nuclear reactor comes thermal energy (heat), which is then turned into electricity.
simply, the nuclear reactor is the source of heat (or steam) for the nuclear power plant.
The source of heat in a nuclear power plant is the release of binding energy (Strong Atomic Force) that hold nuclei together.
Heat from the nuclear reaction changes water to steam.
Nuclear reactors produce heat, the heat then is used to make steam, turning turbines. Therefore, the waste of a nuclear power plant is excess steam.
A heat exchanger where the primary pressurised water produces steam in the secondary side which is at a lower pressure (in the PWR)
A nuclear power plant is a thermal power station. The heat source is nuclear reactor. Its main point is to produce electricity.
Steam from the heat of the reactor.
Source of heat and sometimes generating capacity.
a nuclear reactor converts binding energy into heat. a nuclear power plant uses a nuclear reactor to generate electricity.
Rejected to the turbine cooling system, but this is the same in any power plant running on the Rankine cycle, whether nuclear or fossil fuelled
Heat from the nuclear reaction changes water to steam.
yes