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Thursday, 17 September 2015

Climate Risks from Nuclear Power. Radioactive Krypton 85: Atmospheric-Electrical and Air-Chemical Effects of Ionizing Radiation in the Atmosphere

Title: Climate risks by radioactive krypton-85 from nuclear fission Atmospheric-electrical and air-chemical effects of ionizing radiation in the atmosphere
Klimarisiken durch radioaktives Krypton-85 aus der Kernspaltung Luftelektrische und luftchemische Wirkungen ionisierender Strahlung in der Atmosphaere
Authors : Kollert, R. (Kollert und Donderer, Bremen (Germany)); Gewaltfreie Aktion Kaiseraugst, Liestal (Switzerland);
Corporate author: Bund fuer Umwelt und Naturschutz Deutschland e.V. (BUND), Freiburg im Breisgau (Germany). Landesverband Baden-Wuerttemberg ; Bund Naturschutz in Bayern e.V., Muenchen (Germany)
Publication year: 1994
Language: German ;
The study shows that krypton-85 from nuclear fission enhances air ionization and, thus, interferes with the atmospheric-electrical system and the water balance of the earth atmosphere. This is reason for concern: There are unforeseeable effects for weather and climate if the krypton-85 content of the earth atmosphere continues to rise. There may be a krypton-specific greenhouse effect and a collapse of the natural atmospheric-electrical field. In addition, human well-being may be expected to be impaired as a result of the diminished atmospheric-electrical field. There is also the risk of radiochemical actions and effects caused-by krypton-85-containing plumes in other air-borne pollutants like the latters’ transformation to aggressive oxidants. This implies radiation smog and more acid rain in the countries exposed. This study summarizes findings gained in these issues by various sciences, analyses them and elaborates hypotheses on the actions and effects of krypton-85 on the air, the atmosphere and the climate. (orig./HP);
Abstract : Die Studie zeigt, dass Krypton-85 aus der Kernspaltung die Luftionisation erhoeht und damit in das luftelektrische System sowie in den Wasserhaushalt der Erdatmosphaere eingreift. Dies gibt Anlass zu Sorge: Nicht absehbare Folgen fuer Wetter und Klima, falls der Krypton-85-Gehalt der Erdatmosphaere weiter stark ansteigt. Ein Krypton-spezifischer Treibhauseffekt ist moeglich sowie ein Zusammenbruch des natuerlichen luftelektrischen Feldes. Zu erwarten ist ueberdies eine Beeintraechtigung menschlichen Wohlbefindens infolge des verringerten luftelektrischen Feldes. Hinzu kommt das Risiko strahlenchemischer Wirkungen der Krypton-85-haltigen Abgasschwaden auf andere Luftschadstoffe, insbesondere deren Umwandlung in aggressive Oxidantien. Das bedeutet Strahlen-Smog und mehr sauren Regen ueber den betroffenen Laendern. Die Studie fuehrt zu diesen Problemkreisen Erkenntnisse aus verschiedenen Sachgebieten zusammen, analysiert sie und begruendet Hypothesen zur Wirkung von Krypton-85 auf die Luft, die Atmosphaere und das Klima. (orig./HP) ;
Pagination/Size: 66 p.;
SIGLE classification: 08N – Meteorology, climatology ; 03J – Nuclear waste reprocessing;
Keyword(s) :
Document type :
I – Miscellaneous ;
Series / Report no. :
BUND Information : Luftelektrische und luftchemische Wirkungen ionisierender Strahlung in der Atmosphaere. v. 51 (ISSN )
Other identifier :
DE_ 1995:4257; DE;
Provenance: SIGLE;
Get a copy:
FIZ – Fachinformationszzentrum Karlsruhe TIB – Technische Informationsbibliothek
Availability :
Available from TIB Hannover
Country :
Germany ;
To cite or link to this reference:
Note: Krypton is emitted during nuclear reactor operations, nuclear accidents, and nuclear fuel reprocessing (it’s present in the spent fuel-nuclear waste): “Radionuclide Release Limits—In the context of this ANPR, the specific radionuclide release limits established under 40 CFR 190.10(b). These are the legally permissible maximum amounts of krypton-85, iodine-129, as well as plutonium-239 and other alpha emitters that can enter the environment from the processes of nuclear power operations in any given year, on an energy production basis… There have been active reprocessing facilities in 15 countries, including the U.S., although some of these facilities were more research-oriented as opposed to commercial reprocessing facilities. Of the current operating facilities, the most widely known are the facilities at Sellafield (United Kingdom) and La Hague (France), which constitute the first and second leading producers globally for krypton-85. Both facilities discharge krypton-85 directly to the environment.
Potential radioactive pollutants resulting from expanded energy programs” By Hong Lee, et. al. Environmental Monitoring and Support Laboratory (Las Vegas, Nev.). Monitoring Systems Research and Development Division, EPA-600/7-77-082 August 1977 See text p. 83 re nuclear reactor emissions:
Source: Mining Awareness
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