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Iaea-tecdoc-1450
Iaea-tecdoc-1450









iaea-tecdoc-1450

International Atomic Energy Agency, Viennaġ8. IAEA (2011) Chemistry programme for water cooled nuclear power plants. International Atomic Energy Agency, Viennaġ7. IAEA (2006) Thorium fuel utilization: potential benefits and challenges. International Atomic Energy Agency, Viennaġ6. IAEA (2002) Thorium fuel utilization: options and trends. Hurwic J (2011) Maria Skłodowska-Curie and radioactivity.

iaea-tecdoc-1450

Epimakhov VN, Moskvin LN, Chetverikov VV, Ganyushkin AF, Prokhorkin SV (2010) Treatment of water from spent nuclear fuel storage basins with ion-exchange resins modified with transition metal hexacyano-ferrates. Epimakhov TV, Moskvin LN, Efimov AA, Pykhteev OYu (2010) Positive effect of adding aluminum salts to primary coolants of nuclear power installations. Długosz M, Grabowski P, Bem H (2010) 210Pb and 210Po radionuclides in the urban air of Lodz, Poland. In: Proc of the 1st ACSEPT Int Workshop, 31 March – 2 April 2010, Lisbon, Portugal, Proceedingsġ1. (2010) Synthesis of uranium and thorium dioxides by complex sol-gel processes (CSGP). (2009) Preparation of spherical particles of Li2 TiO3 (with diameters below 100 mi m) by sol-gel process. Swedish Nuclear Power Inspectorate, SLI Report no 16ĩ. Christensen H (2006) Fundamental aspects of water coolant radiolysis. ChmielewskiAG, Zakrzewska-TrznadelG, Miljevic NR, Van Hook WA (1997) Multistage process of deuterium and heavy oxygen enrichment by membrane distillation. ChmielewskiAG, Matuszak A, Zakrzewska-TrznadelG, Miljevic NR, Van Hook WA (1993) Cascades for natural water enrichment in deuterium and oxygen-18 using membrane permeation.

iaea-tecdoc-1450

Chmielewski AG, Harasimowicz M, Tymiński B, Zakrzewska-Trznadel G (2001) Concentration of low- and medium-level radioactive wastes with 3-stage reverse osmosis pilot plant. Chmielewski AG (2008) Nuclear fissile fuels worldwide reserves.

#Iaea tecdoc 1450 series

In: Moyer BA (ed) Ion exchange solvent extraction: a series of advances. Berthon L, Charbonnel MC (2009) Radiolysis of solvents used in nuclear fuel reprocessing. (2008) Hydrothermal reprocessing of liquid radwaste from nuclear power plants. Aleshin AM, Gusev BA, Orlenkov IS (2010) Optimization of the decontamination of primary circuits of nuclear power installations. This paper addresses just a few subjects and is not a detailed overview of the field, however it illustrates a role of chemistry for a safe and economical nuclear power development.ġ. Radiochemical analytical methods are fundamental for radioecological monitoring of radioisotopes of natural and anthropological origin. The IVth generation of nuclear reactors cannot be developed without chemical solutions for fuel fabrication, radiation-coolants interaction phenomena understanding and spent fuel/waste treatment technologies elaboration. Chemistry for a partitioning and a transmutation is a new challenge for the chemists and chemical engineers. These developments concern all stages of the technology front end, reactor operation (coolant chemistry and installation components decontamination, noble gas release control), back end of fuel cycle, etc. Even at present, the offered technology is well developed, but still several improvements are needed and proposed. Chemistry - radiochemistry, radiation chemistry and nuclear chemical engineering play a very important role in the nuclear power development.











Iaea-tecdoc-1450