Navigation and service

Ionising radiation

Environmental Radioactivity - Medicine - Occupational Radiation Protection - Nuclear Hazards Defence

Ionisierende Strahlung

Chernobyl

The reactor disaster in Chernobyl in the Ukraine occurred on 26 April 1986. Large amounts of radioactive material were released which distributed over the northern hemisphere. The radioactive contamination in the affected areas resulting from this varied considerably, depending on the occurrence and level of precipitation during the drifting of the radioactive air masses. As a result of the Chernobyl accident many countries have updated their programmes for the protection of the population from radioactive radiation.

Handheld measuring device used to determine the ambient dose rate in front of the Chernobyl reactor. The display shows a value of 3.04 microsievert per hour.

The Chernobyl accident

The accident occured in unit 4 of the Chernobyl nuclear power plant - a reactor type of Soviet design. The reactor was in the phase of slow shutdown. At the same time an experiment was planned for checking various safety features. Basic design failures of the plant in combination with failures and offences in operational management led to the reactor desaster.

Contamination Probe

Accident management: Consequences for Germany

If there is an accident in a nuclear power plant there are required disaster protection measures in Germany. The "Basic Recommendations for civil protection in the vicinity of nuclear facilities" and the "Radiological basis for decisions on measures to protect the population against Accidental Releases of radionuclides" regulate these measures. For the implementation of these measures, such as evacuations, the federal states ("Länder"), the counties and independent cities are primarily responsible. The Federal Office for Radiation Protection (BfS) assists the federal states in evaluating the radioactive release.

Wild Boar

Environmental consequences

Radioactive caesium (caesium-137 and caesium-134) and iodine (iodine-131) were particularly significant for the radiation exposure of the population as a consequence of the reactor disaster of Chernobyl. Today virtually only the long-lived caesium-137 is significant for Central Europe. Due to its half-life of about 30 years this radionuclide has only decayed by about half from 1986 until now.

© Bundesamt für Strahlenschutz