Detail publikace

Cascade and Independent Malfunctions and Damages of Safety Systems in Terms of a Nuclear Accident

PTÁČEK, M. MATOUŠEK, A.

Originální název

Cascade and Independent Malfunctions and Damages of Safety Systems in Terms of a Nuclear Accident

Anglický název

Cascade and Independent Malfunctions and Damages of Safety Systems in Terms of a Nuclear Accident

Jazyk

en

Originální abstrakt

The work is focused on the investigation of the reliability of eletric and non-eletric facilities which is important for the nuclear safety in Dukovany nuclear power plant (EDU). The reliability of selected facilities, especially the diesel generator, has been examined since 1998 until now. On the basis of the facilities' reliability a demonstration scenario of malfunctions and damages has been created. The chronology of the facilities' malfunctions and damages was set thus it would lead to the black-out of the self-consumption reactor block and the radioactive substances would escape into the area of power plant. On the basis of the created scenario a nuclear accident is being simulated using application 3D model EDU. Main task of the scenario is to show a low probability of such events. Furthermore, the scenario indicates the possible health risks of people working on the restoration of supply systems of diesel generators or reserve transformer directly in the radiation area. In conclusion, there is assessed the potential of used technology for the future of nuclear energy and there are evaluated results of simulation by aplication 3D model EDU.

Anglický abstrakt

The work is focused on the investigation of the reliability of eletric and non-eletric facilities which is important for the nuclear safety in Dukovany nuclear power plant (EDU). The reliability of selected facilities, especially the diesel generator, has been examined since 1998 until now. On the basis of the facilities' reliability a demonstration scenario of malfunctions and damages has been created. The chronology of the facilities' malfunctions and damages was set thus it would lead to the black-out of the self-consumption reactor block and the radioactive substances would escape into the area of power plant. On the basis of the created scenario a nuclear accident is being simulated using application 3D model EDU. Main task of the scenario is to show a low probability of such events. Furthermore, the scenario indicates the possible health risks of people working on the restoration of supply systems of diesel generators or reserve transformer directly in the radiation area. In conclusion, there is assessed the potential of used technology for the future of nuclear energy and there are evaluated results of simulation by aplication 3D model EDU.

Dokumenty

BibTex


@inproceedings{BUT33016,
  author="Michal {Ptáček} and Antonín {Matoušek}",
  title="Cascade and Independent Malfunctions and Damages of Safety Systems in Terms of a Nuclear Accident",
  annote="The work is focused on the investigation of the reliability of eletric and non-eletric facilities which is important for the nuclear safety in Dukovany nuclear power plant (EDU). The reliability of selected facilities, especially the diesel generator, has been examined since 1998 until now.
On the basis of the facilities' reliability a demonstration scenario of malfunctions and damages has been created. The chronology of the facilities' malfunctions and damages was set thus it would lead to the black-out of the self-consumption reactor block and the radioactive substances would escape into the area of power plant.
On the basis of the created scenario a nuclear accident is being simulated using application 3D model EDU. Main task of the scenario is to show a low probability of such events. Furthermore, the scenario indicates the possible health risks of people working on the restoration of supply systems of diesel generators or reserve transformer directly in the radiation area. 
In conclusion, there is assessed the potential of used technology for the future of nuclear energy and there are evaluated results of simulation by aplication 3D model EDU.",
  address="Brno University of Technology",
  booktitle="Proccedings of the 11th International Scientific Conference Electric Power Engineering 2010",
  chapter="33016",
  edition="First",
  howpublished="print",
  institution="Brno University of Technology",
  year="2010",
  month="may",
  pages="623--627",
  publisher="Brno University of Technology",
  type="conference paper"
}