Open Access Open Access  Restricted Access Subscription Access

Microbial Transmutation of Cs-137 and LENR in Growing Biological Systems


Affiliations
1 Kiev National Shevchenko University, Electronics and Computer Science, 01601, Vladimirskaya Str. 64, Kiev, Ukraine
2 Moscow State University, 119899, Vorob’evy gory, Russian Federation
 

This article presents the results of long-term investigations of stable and radioactive isotopes transmutation in growing microbiological cultures. It is shown that transmutation during growth of microbiological associations is 20 times more effective than the same process in the form of 'clean' microbiological culture. In this work, the process of controlled decontamination of highly active reactor isotopes (reactor waste) through the process of growing microbiological associations has been studied. The most rapidly increasing decay rate of Cs137 isotope, which occurred with the 'effective' half life τ* ≈ 310 days (involving an increase in rate and decrease in half life by a factor of 35) was observed in the presence of Ca salt in closed flask with active water containing Cs137 solution and optimal microbiological association.

Keywords

Low Energy Nuclear Reactions, Microbiological Association, Radioactive Isotopes, Reactor Waste Transmutation.
User
Notifications
Font Size

Abstract Views: 405

PDF Views: 132




  • Microbial Transmutation of Cs-137 and LENR in Growing Biological Systems

Abstract Views: 405  |  PDF Views: 132

Authors

V. I. Vysotskii
Kiev National Shevchenko University, Electronics and Computer Science, 01601, Vladimirskaya Str. 64, Kiev, Ukraine
A. A. Kornilova
Moscow State University, 119899, Vorob’evy gory, Russian Federation

Abstract


This article presents the results of long-term investigations of stable and radioactive isotopes transmutation in growing microbiological cultures. It is shown that transmutation during growth of microbiological associations is 20 times more effective than the same process in the form of 'clean' microbiological culture. In this work, the process of controlled decontamination of highly active reactor isotopes (reactor waste) through the process of growing microbiological associations has been studied. The most rapidly increasing decay rate of Cs137 isotope, which occurred with the 'effective' half life τ* ≈ 310 days (involving an increase in rate and decrease in half life by a factor of 35) was observed in the presence of Ca salt in closed flask with active water containing Cs137 solution and optimal microbiological association.

Keywords


Low Energy Nuclear Reactions, Microbiological Association, Radioactive Isotopes, Reactor Waste Transmutation.



DOI: https://doi.org/10.18520/cs%2Fv108%2Fi4%2F636-640