[ Application de la Résine Polyépoxyde Novolaque dans le Conditionnement des Déchets Radioactifs dans une Matrice de Ciment ]
Volume 7, Issue 3, August 2014, Pages 1057–1070
Atiqa BEKHTA1, Touria LAMBARKI EL ALLIOUI2, Abderrahim BOUIH3, Bouchra EL HILAL4, and Ahmed El Harfi5
1 Laboratory of Polymers, Radiation and Environment (LPRE) - Team of Organic and Macromolecular Chemistry (TOMC), Department of Chemistry, University Ibn Tofail, Faculty of Sciences, Kenitra, Morocco
2 Exploitation Unit of the Radioactive Waste, Center of Nuclear Studies of Maâmora (CENM) (CNESTEN), POB 1382, 10001 Kenitra, Morocco
3 Exploitation Unit of the Radioactive Waste, Center of Nuclear Studies of Maâmora (CENM) (CNESTEN), POB 1382, 10001 Kenitra, Morocco
4 Department of Chemistry, Laboratory of Polymers, Radiation and Environment (LPRE), Team of Macromolecular & Organic Chemistry, University Ibn Tofail, Faculty of Sciences, Kenitra, Morocco
5 Laboratory of Polymers, Radiation and Environment (LPRE) - Team of Organic and Macromolecular Chemistry (TOMC), Department of Chemistry, University Ibn Tofail, Faculty of Sciences, Kenitra, Morocco
Original language: French
Copyright © 2014 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
The definition of a process of conditioning by cementation of solid radioactive waste has required many works intended research optimize the composition of matrices and improved their resistance. In this work, we introduced the polymer (epoxy Novolac resin) and / or epoxy Novolac composite material in a nuclear application to assess its impact. Following a research study on the management of ion exchange resins, radioactive waste generated by the Triga Mark II reactor CNESTEN, this study is an add-in to improve the compressive strength of the matrix conditioning the ion exchange resin by the introduction of the epoxy Novolac polymer and to evaluate its impact on the die packaging.
Author Keywords: Ion exchange resins, radioactive waste, Triga Mark II reactor, compressive strength, conditioning.
Volume 7, Issue 3, August 2014, Pages 1057–1070
Atiqa BEKHTA1, Touria LAMBARKI EL ALLIOUI2, Abderrahim BOUIH3, Bouchra EL HILAL4, and Ahmed El Harfi5
1 Laboratory of Polymers, Radiation and Environment (LPRE) - Team of Organic and Macromolecular Chemistry (TOMC), Department of Chemistry, University Ibn Tofail, Faculty of Sciences, Kenitra, Morocco
2 Exploitation Unit of the Radioactive Waste, Center of Nuclear Studies of Maâmora (CENM) (CNESTEN), POB 1382, 10001 Kenitra, Morocco
3 Exploitation Unit of the Radioactive Waste, Center of Nuclear Studies of Maâmora (CENM) (CNESTEN), POB 1382, 10001 Kenitra, Morocco
4 Department of Chemistry, Laboratory of Polymers, Radiation and Environment (LPRE), Team of Macromolecular & Organic Chemistry, University Ibn Tofail, Faculty of Sciences, Kenitra, Morocco
5 Laboratory of Polymers, Radiation and Environment (LPRE) - Team of Organic and Macromolecular Chemistry (TOMC), Department of Chemistry, University Ibn Tofail, Faculty of Sciences, Kenitra, Morocco
Original language: French
Copyright © 2014 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Abstract
The definition of a process of conditioning by cementation of solid radioactive waste has required many works intended research optimize the composition of matrices and improved their resistance. In this work, we introduced the polymer (epoxy Novolac resin) and / or epoxy Novolac composite material in a nuclear application to assess its impact. Following a research study on the management of ion exchange resins, radioactive waste generated by the Triga Mark II reactor CNESTEN, this study is an add-in to improve the compressive strength of the matrix conditioning the ion exchange resin by the introduction of the epoxy Novolac polymer and to evaluate its impact on the die packaging.
Author Keywords: Ion exchange resins, radioactive waste, Triga Mark II reactor, compressive strength, conditioning.
Abstract: (french)
La définition d'un procède de conditionnement par cimentation des déchets radioactives solides a requis de nombreux travaux de recherche destines à optimiser la composition des matrices et d'améliorés leurs résistances. Dans ce travail, nous avons introduit le polymère (résine époxyde novolaque) et/ou matériau composite époxy novolaque dans une application nucléaire pour évaluer son impact. Suite à une étude de recherche sur la gestion des résines échangeuses d'ion, déchet radioactif généré par le réacteur Triga Mark II du CNESTEN, la présente étude est un complément dans le but d'améliorer la résistance à la compression de la matrice de conditionnement de la résine échangeuse d'ion par l'introduction du polymère époxyde novolaque et d'évaluer son impact sur la matrice de conditionnement.
Author Keywords: Résines échangeuses d'ion, déchet radioactif, réacteur Triga Mark II, résistance à la compression, conditionnement.
How to Cite this Article
Atiqa BEKHTA, Touria LAMBARKI EL ALLIOUI, Abderrahim BOUIH, Bouchra EL HILAL, and Ahmed El Harfi, “Application of Novolac Polyepoxide Resin in the Conditioning of Radioactive Waste in Cement Matrix,” International Journal of Innovation and Applied Studies, vol. 7, no. 3, pp. 1057–1070, August 2014.