What is nuclear power
Nuclear power generation involves nuclear fission of uranium in a nuclear reactor and the use of steam generated by the heat associated with the fission reaction. The nuclear reactor and uranium fuel are respectively analogous to the boiler and oil or coal fuel in thermal power generation.
The security of energy supply is a critical issue for many countries, hence nuclear energy is used to service a large portion of the electricity demand in those countries. Nuclear power generation is characterized by good availability of uranium as fuel, the capability to supply electricity stably for a long period, and the capability to recycle fuel. Nuclear power, therefore, is an indispensable power generation method in the developed nations. Another significant advantage of nuclear power is that it does not emit carbon dioxide (CO2) during power generation.
Because uranium, used as fuel for nuclear power generation, is a radioactive material, multilayered safety measures are taken based on the "defense in depth" concept, so that radioactivity will not be released in the event of an accident.
Nuclear power generation involves nuclear fission of uranium in a nuclear reactor and the use of steam generated by the heat associated with the fission reaction. The nuclear reactor and uranium fuel are respectively analogous to the boiler and oil or coal fuel in thermal power generation.
The security of energy supply is a critical issue for many countries, hence nuclear energy is used to service a large portion of the electricity demand in those countries. Nuclear power generation is characterized by good availability of uranium as fuel, the capability to supply electricity stably for a long period, and the capability to recycle fuel. Nuclear power, therefore, is an indispensable power generation method in the developed nations. Another significant advantage of nuclear power is that it does not emit carbon dioxide (CO2) during power generation.
Because uranium, used as fuel for nuclear power generation, is a radioactive material, multilayered safety measures are taken based on the "defense in depth" concept, so that radioactivity will not be released in the event of an accident.