Nulcear Accidents 12 - Types of Nuclear Accidents
There are a variety of types of nuclear accidents. This is a list of some of the main types.
Nuclear reactors are basically furnaces that using radioactive materials to generate heat to drive steam turbines. They require large amounts of cooling water to operate properly. Depending on the type of reactor, the coolant that carries heat away from the reactor core may be converted directly to steam or it may transfer heat through a heat exchanger to turn water to steam in a separate system. Then there is another separate system that cools the steam back to water. A coolant accident can cause serious problems for a nuclear reactor. If coolant is lost in the reactor core, there is danger of exposure of fuel rods and meltdown. Loss of coolant in the steam system can result in releaser of radioactive isotopes in escaping steam. And, finally, if there is insufficient water to cool the steam, then the reactor cannot function.
Nuclear reactors generate heat via a fission reaction. In order to maintain a steady output of energy, the fuel in the reactor core must achieve criticality or a self-sustaining fission reaction. The reaction must be controlled in order to prevent a runaway production of excess energy. Sometimes unintended criticality occurs in a fissile material in a reactor, a laboratory or a processing plant and this is called a criticality accident. This results in the expected and dangerous release of radioactivity.
When accidents cause damage to and/or exposure of the reactor core, the resulting excess heat from radioactive decay is called a decay heat accident. The heat can cause exposure and melting of the fuel elements, damage to the reactor machinery, generation of steam which can breach the containment vessel or generation of hydrogen which can explode and blow out the walls of the containment shell and the reactor building.