Radiochemical Methodologies Applied to Analytical Characterization of Low and Intermediate Level Wastes from Nuclear Power Plants
DOI:
https://doi.org/10.15392/bjrs.v7i2A.636Palabras clave:
radioactive waste, radionuclides, radioanalitycal techniquesResumen
The aim of this work is to present radiochemical methodologies developed at CDTN/CNEN in order to answer a program for isotopic inventory of radioactive wastes from Brazilian Nuclear Power Plants. In this program some radionuclides, 3H, 14C, 55Fe, 59Ni, 63Ni, 90Sr, 93Zr, 94Nb, 99Tc, 129I, 235U, 238U, 238Pu, 239+240Pu, 241Pu, 242Pu, 241Am, 242Cm e 243+244Cm, were determined in Low Level Wastes (LLW) and Intermediate Level Wastes (ILW) and a protocol of analytical methodologies based on radiochemical separation steps and spectrometric and nuclear techniques was stablished.Descargas
Referencias
Electric Power Research Institute (US) Low-level waste characterization guidelines. Pleasant Hill, EPRI-TR-1072 (1996).
IAEA Nuclear Energy Series. Determination and use of scaling factors for waste characteri-zation in nuclear power plants. IAEA, Vienna No. NW-T-1.18 (2009).
Environmental Protection Agency (US). Inventory of radiological methodologies; for sites contaminated with radioactive materials. Montgomery: EPA 402-R-06-007 (2006).
Quemet A., Maillard C., Ruas A., “Determination of zirconium isotope composition and con-centration for nuclear sample analysis using Thermal Ionization Mass Spectrometry”, Interna-tional Journal of Mass Spectrometry, 392, pp.34-40 (2015).
Reis Jr. A.S., Temba E.S.C., Kastner G.F., Monteiro R.P.G., “Separation and Activity Deter-mination of 239+240Pu, 241Am and Curium (242 and 244Cm) in Evaporator Concentrate by Al-pha Spectrometry,” Proceeding of International Nuclear Atlantic Conference - INAC 2013”, Recife, November 24-29 (2013).
Reis Jr. A.S., Temba E.S.C., Kastner G.F., Monteiro R.P.G., “Combined procedure using radio-chemical separation of plutonium, americium and uranium radionuclides for alpha-spectrometry”, Journal of Radioanalytical and Nuclear Chemistry, 287, pp.567-572 (2011).
Reis Jr. A.S., Temba E.S.C., Kastner G.F., Monteiro R.P.G., Nuclear Power Plants, In Thec, Croatia (2012).
Temba E.S.C., Reis Jr. A.S., Amaral A.M., Monteiro R.P.G., “Separation and determination of 90Sr in low- and intermediatelevel radioactive wastes using extraction chromatography and LSC”, Journal of Radioanalytical and Nuclear Chemistry, 290, pp.631-635 (2011).
Oliveira T.C., Monteiro R.P.G., Oliveira A.H., “A selective separation method for 93Zr in radio-chemical analysis of low and intermediate level wastes from nuclear power plants”, Journal of Radioanalytical and Nuclear Chemistry, 289, pp.497-501 (2011).
Oliveira T.C., Monteiro R.P.G., Kastner G.F., Bessueille-Barbier F., Oliveira A.H., “Radiochem-ical methodologies applied to determination of zirconium isotopes in low-level waste sam-ples from nuclear power plants”, Journal of Radioanalytical and Nuclear Chemistry, 302, pp.41-47 (2014).
Temba E.S.C., Reis Jr. A.S., Kastner, G.F., Monteiro R.P.G., Moreira R.M., “Separation and determination of the difficult-to-measureradionuclide 99Tc in radioactive wastes from nuclear power plants by using extraction chromatography and radiometric techniques”, Journal of Ra-dioanalytical and Nuclear Chemistry, 307, pp.1453-1458 (2016).
Temba E.S.C., Kastner, G.F., Reis Jr. A.S., Monteiro R.P.G., Moreira R.M., “Determination of 94Nb in radioactive wastes using extraction chromatography and gamma spectrometry”, Jour-nal of Radioanalytical and Nuclear Chemistry, 311, pp.1627-1631 (2017).
Kastner G.F., Oliveira T.C., Monteiro R.P.G., “Radiochemical Determination of 129 I in Low and Intermediate Nuclear Wastes,” Proceeding of International Nuclear Atlantic Conference - INAC 2011”, Belo Horizonte, October 24-28 (2011).
Rodríguez, M. et al. Interlaboratory radiochemical analysis comparison on a primary waste flux. Luxembourg: European Commission, EUR-20616, (2003).
Magnusson, Å. et al. “14C in spent ion-exchange resins and process water from nuclear reactors: A method for quantitative determination of organic and inorganic fractions”, Journal of Radi-onalytical and Nuclear Chemistry, 275, pp.261-273 (2008).
Currie, L.A., “Limits for qualitative detection and quantitative Determination- Application to Radiochemistry”, Analytical Chemistry, 40, pp.586-593 (1968).
Bandura D.R., Baranov V.I., Litherland A.E., Tanner S.D., “Gas-phase ion-molecule reactions for resolution of atomic isobars: AMS and ICP-MS perspectives”, International Journal of Mass Spectrometry, 255-256, pp.312-327 (2006).
Descargas
Publicado
Número
Sección
Licencia
Derechos de autor 2021 Brazilian Journal of Radiation Sciences (BJRS)
Esta obra está bajo una licencia internacional Creative Commons Atribución 4.0.
Licencia: los artículos de BJRS tienen una licencia internacional Creative Commons Attribution 4.0, que permite el uso, el intercambio, la adaptación, la distribución y la reproducción en cualquier medio o formato, siempre que se otorgue el crédito correspondiente al autor o autores originales y a la fuente, proporcione un enlace a la licencia Creative Commons e indique si se realizaron cambios. Las imágenes u otros materiales de terceros en el artículo están incluidos en la licencia Creative Commons del artículo, a menos que se indique lo contrario en una línea de crédito al material. Si el material no está incluido en la licencia Creative Commons del artículo y su uso previsto no está permitido por la regulación legal o excede el uso permitido, el autor deberá obtener el permiso directamente del titular de los derechos de autor. Para ver una copia de esta licencia, visite http://creativecommons.org/licenses/by/4.0/
