Сomplex processing of liquid radioactive waste.
The use of a set of original highly efficient selective sorbents made it possible to develop a new concept of reprocessing liquid radioactive waste (LRAW). All operations on sorption of radionuclides from LRAW and cementation of waste radioactive sorbents to transfer them for disposal is performed directly inside standard certified containers designed for long-term storage (disposal) of radioactive waste.
HOW CONTRARIAN TECHNOLOGY WORKS
Pilot test of CONTRARIAN TECHNOLOGY
Search services from liquid radioactive waste (LRAW)
ISOTOPE RECOVERY TEST at ASCO NPP
Testing of sorbents on distillation residues (sludge) of the Kola and Beloyarsk NPPs
CONTRARIAN TECHNOLOGY for Fukushima Daiichi NPP
The Japanese government announced in April 2021 that it will begin dumping the nuclear wastewater stored at Fukushima into the Ocean from the spring of 2023.
To stop the release of Fukushima nuclear wastewater into the Ocean, our team has developed a technological method to purify such wast. A more detailed description of the technology in the international application WO/2021/107811.
MONITORING RADIOACTIVE POLLUTION IN SEAWATER
After the accident at the Chernobyl NPP, the Eksorb developed the selective sorbent Anfezh for the determination of radiocesium in sea water.
The method for determining radiocaesium in seawater using a new modification of Anfezh, has high reproducibility, easy use and fast measurement. The combination of these factors will lead to an increase in the number of ongoing analyses, therefore, the understanding of the radiation situation and the speed of response to anthropogenic human interventions will improve.
VETERINARY AND MEDICINAL PRODUCTS
Preparation based on iron hexacyanoferrate for the treatment and prevention of iron deficiency anemia enriched with iron and potassium, removes heavy and radioactive metals from the body.