Decommissioning of Uranium Pilot Plants at IPEN-CNEN/SP: Facilities Dismantling, Decontamination and Reuse as New Laboratories for Strategic Programs
Decommissioning of Uranium Pilot Plants at IPEN-CNEN/SP: Facilities Dismantling, Decontamination and Reuse as New Laboratories for Strategic Programs
摘要
From beginning of 90's, the Brazilian nuclear policy has been changed radically. This determined the interruption of most R&D fuel cycle activities and the facilities shutdown at Nuclear and Energetic Research Institute (IPEN). The existence of those facilities also implicated in the need of constant surveillance, representing additional obligations, costs and problems. The reasons to promote the dismantling of the IPEN's Nuclear Fuel Cycle Pilot Plants elapsed mainly from the need of physical space for new activities, since the R&D in the nuclear fuel cycle area were interrupted. In the last decade, IPEN has changed its "nuclear profile" to a "comprehensive and multidisciplinary profile". With the end of most nuclear fuel cycle activities, the former facilities were distributed in four different centers. Each center has adopted a different strategy and priority to face the D&D problem. The available resources depend on the specific program in each area's development (resources available from other sources, not only from Brazilian National Nuclear Energy Commission (CNEN). One of those new activities is the IPEN's Environmental Program. This paper describes the procedures, problems faced and results related to the reintegration of the former pilot plant areas as new laboratories of the Chemical and Environmental Technology Center-CQMA of the IPEN.
参考文献14
-
1Lainetti, P. E. O., Freitas, A., Ferrari, E., Ferreto, H., Ayoub, J., Seneda, J., et al. 2002. Piano de Aao Para Desmontagem das Unidades do Ciclo do Combustivel. IPEN's Internal report (in portuguese), So Paulo, February.
-
2Lainetti, P. E. O., Freitas, A. A. 2003. Desmontagem Das. Unidades de Dissolu(o e Purificaao de Urdnio do Ciclo do Combustivel-Bloco I do CQMA. IPEN's Internal report, Sio Paulo, March.
-
3Lainetti, P. E. O. 2005. "Decommissioning of Nuclear Fuel Cycle Facilities-IPEN's Experience." Proceedings of the 7th Enan International Meeting on Nuclear Applications, INAC 2005, Santos, SP, Brasil.
-
4Lainetti, P. E. O. 2005. "Decommissioning of Nuclear Fuel Cycle Facilities at IPEN (Brazil), IAEA Research Project BRA-12800." Research Coordination Meeting Innovative and Adaptive Technologies in Decommissioning of Nuclear Facilities, Halden, Norway.
-
5Lainetti, Progress P. E. O. 2006. "Status of the in R&D Activities in Program and Support of." Decommissioning of Nuclear Fuel Cycle Facilities at IPEN (Brazil), IAEA Research Project BRA-12800." Research Coordination Meeting Innovative and Adaptive Technologies in Decommissioning of Nuclear Facilities, Keswick, UK.
-
6Guide to Cleaner Technologies--Organic Coating Removal EPA/625/R-93/O15 Office of Research and Developmen-US EPA. Washington DC: United States Environment Protection Agency.
-
7International Atomic Energy Agency. 2001. Methods for Minimization of Decontamination and Decommissioning of Nuclear Facilities. Technical reports Series No. 401.
-
8International Atomic Energy Agency. 2006. Management of Problematic Waste and Material Generated During theDecommissioning of Nuclear Facilities. Technical Reports Series No. 441.
-
9IAEA-TECDOC-1527. 2006. Application of Thermal Technologies for Proeessing of Radioactive Waste. Vienna: International Atomic Energy Agency.
-
10Janz, G. J. 1967. Molten Salts Handbook, New York: Academic Press.
-
1Programs Fitting in Experiment[J].IMP & HIRFL Annual Report,1998(0):68-68.
-
2XIE Wei-hong,XIA Ming-xu,MA Mei-hua.Verification of Decontamination of Spent Fuel Reprocessing Plant Equipment in Situ[J].Annual Report of China Institute of Atomic Energy,2006(1):177-178.
-
3吴小波,夏普,彭旦.低浓铀在IAEA基准装置IPEN-MB-01中应用的初步研究[J].原子能科学技术,2008,42(B09):197-201.
-
4Daurenbek Azenuly AUBAKIR.Getting Free Heat Energy Based on Cavitation and Nuclear Fusion according to Revinov's Pilot Plants[J].Journal of Physical Science and Application,2016,6(3):44-54.
-
5ZHU Wen-bin, LI Feng-feng (Department of Radiochemistry).Valance Adjustment of Np and Pu in 1AF Fluid of Pilot Plant[J].Annual Report of China Institute of Atomic Energy,2011(1):141-142.
-
6Paulo Ernesto de Oliveira Lainetti Antonio Alves de Freitas Ana Copat Mindrisz.Review of Brazilian Activities Related to the Thorium Fuel Cycle and Production of Thorium Compounds at IPEN-CNEN/SP[J].Journal of Energy and Power Engineering,2014,8(12):1983-1990.
-
7ZHANG Hu,YE Guo-an,LI Li,CONG Hai-feng,LI Feng-feng,JIANG De-xiang.Neptunium and Uranium Co-extraction in Co-decontamination Cycle[J].Annual Report of China Institute of Atomic Energy,2009(1):279-280.
-
8HE Hui, LI Gao-liang, CHEN Hui, JIANG De-xiang, TANG Hong-bin.Computer Simulation of Co-decontamination Process in Purex[J].Annual Report of China Institute of Atomic Energy,2007(1):181-181.
-
9Paulo E. O. Lainetti.Cutting Techniques for Facilities Dismantling in Decommissioning Projects[J].Journal of Energy and Power Engineering,2016,10(9):513-521. 被引量:1
-
10Meng Jie,Liu YuXin,Zhou ShanGui.Editorial[J].Science China(Physics,Mechanics & Astronomy),2009,52(10):1449-1451.
