Montagnini, Università di Pisa – Giugno 2003 – http://www.tesionline.it/default/tesi.asp?idt=10251

Bibliografia

/I.1/ http://www.world-nuclear.org

/I.2/ N. Cerullo, B. Guerrini, N. Iannaccone, La sicurezza intrinseca dei reattori a gas ad alta temperatura, Energia Nucleare, Anno 12, n. 3, Settembre-Dicembre 1995

/I.3/ G. Lomonaco, I recenti sviluppi dei reattori a gas ad alta temperatura. La collocazione di questi impianti nel futuro piano energetico mondiale. Il programma europeo HTR-N e l’attività di ricerca del DIMNP svolta nel suo ambito. – Tesi di laurea in Ingegneria Nucleare, relatori prof. N. Cerullo, prof. G. Forasassi, prof. B.

Montagnini, Università di Pisa – Giugno 2003 – http://www.tesionline.it/default/tesi.asp?idt=10251

/I.4/ V. Romanello, Analisi di alcune peculiari potenzialità degli HTR: la produzione di idrogeno ed il bruciamento degli attinidi, Tesi di laurea in Ingegneria Nucleare, relatori prof. N. Cerullo, prof. G. Forasassi, prof. B. Montagnini, ing. G. Lomonaco, Università di Pisa – Ottobre 2003 – http://etd.adm.unipi.it/theses/available/etd-10152003-181233/

/I.5/ K. Fukuda, W. Danker, J. S. Lee, A. Bonne and M. J. Crijns, IAEA Overview of global spent fuel storage, Department of Nuclear Energy, IAEA, Vienna, Austria, 2003 /I.6/ http://www.nucleartourist.com

/I.7/ http://www.mbe.doe.gov

/I.8/ V. Romanello, comunicazione privata, 24 Febbraio 2005

/I.9/ J. Ahn, Relationship between nuclear fuel cycle parameters and HLW repository performance, University of California, Berkeley, Department of Nuclear Engineering – http://tauon.nuc.berkeley.edu

/1.1/ V. Romanello, G. Lomonaco, N. Cerullo, La sistemazione in sicurezza delle scorie nucleari, 21

Secolo – n.3 Luglio 2005

/1.2/ P.D. Wilson, The nuclear fuel cycle - from ore to waste, Oxford University Press, Oxford, 1996

/1.3/ N. Cerullo, D. Bufalino, G. Forasassi, G. Lomonaco, P. Rocchi, V. Romanello, The capabilities of HTRs to burn actinides and to optimize plutonium exploitation, Proceedings of ICONE12, April 2004, Arlington, Virginia, USA

/1.4/ N. Cerullo, D. Bufalino, G. Forasassi, G. Lomonaco, P. Rocchi, V. Romanello, An additional performance of HTRs: the waste radiotoxicity minimization, Proceedings of ICRS10, Madeira, Portugal, May 2004

/1.5/ N. Cerullo, G. Lomonaco, V. Romanello, Waste minimization using innovative

LWR-HTR-GCFR symbiotic fuel cycles, Proceedings of ARWIF, February 2005

/1.6/ M. Salvatores, Transmutation: a decade of revival issues, relevant experiments and perspectives, OECD/IAEA, Actinide and fission product partitioning and transmutation, 6

Information Exchange Meeting – Madrid, Spain, 11-13 December 2000

/2.1/ B. Guerrini, S. Paci, Lezioni di Impianti Nucleari – Parte III: Componenti, SEU, Pisa, A.A. 1998-99

/2.2/ S. Boracchia, L’amplificatore di energia proposto dal Prof. Rubbia: analisi del sistema, Tesi di Laurea in Ingegneria Meccanica, relatori prof. N. Cerullo, prof. G.

Guglielmini, ing. M. Frogheri, Università di Genova – A.A. 1995-96

/2.3/ P. Wydler, L. H. Baetslè, Closing the nuclear fuel cycle: issues and perspectives, OECD/IAEA, Actinide and fission product partitioning and transmutation, 6

Information Exchange Meeting – Madrid, Spain, 11-13 December 2000

/2.4/ C. Madic, Overview of the hydrometallurgical and pyro-metallurgical processes studied worldwide for the partitioning of high active nuclear wastes, OECD/IAEA, Actinide and fission product partitioning and transmutation, 6

Information Exchange Meeting – Madrid, Spain, 11-13 December 2000

/2.5/ OECD/IAEA, Plutonium menagement in the Medium Term, Rewiew by OECD/IAEA Working Party on the Physics of Plutonium Fuels and Innovative Fuel Cycles (WPPR), 2003

/2.6/ D. C. Wade, Safety considerations in design of fast spectrum ADS for transuranic or minor actinide burning: a status report on activities of the OECD/NEA expert group, OECD/IAEA, Actinide and fission product partitioning and transmutation, 6

Information Exchange Meeting – Madrid, Spain, 11-13 December 2000

/2.7/ IAEA Techdoc-1349, Potential of thorium based fuel cycle to constrain plutonium and reduce long lived waste toxicity, Vienna, 2003

/2.8/ http://www.neutron.kth.se

/2.9/ W. A. Higinbotham, Material Unaccounted For at the Southwest Fast Oxide Reactor: The SEFOR MUF, Department of Advanced Technology, Brookhaven National Laboratory, Upton, Long Island, New York, November 7, 1994

/2.10/ L. Bruzzi, G. Cicognani, G. Dominici, Il ciclo del combustibile dei reattori nucleari, Pitagora, Bologna, 1992

/2.11/ http://www.ricin.com/nuke

/2.12/ D. Bufalino, N. Cerullo, G. Lomonaco, V. Romanello, HTR-N1 Plutonium

Burnup Benchmark – Results obtained by UNIPI using MONTEBURNS code, 05

Dicembre 2004

/2.13/ Gas-Cooled Fast Reactor (GCFR) Project, Specific Targeted Research or Innovation Project – Annex I “Description of Work”, 16 December 2004

/2.14/ Table of nuclides – http://atom.kaeri.re.kr

/3.1/ Laboratoire de Physique Subatomique et de Cosmologie de Grenoble (LPSC) - http://lpsc.in2p3.fr

/3.2/ http://www-nfcis.iaea.org /3.3/ http://www.nea.fr

/3.4/ http://www.cea.fr

/3.5/ V. Romanello, comunicazione privata, 17 Novembre 2005

/3.6/ Nuclear Fuel Material Balance Calculator - http://www.wise- uranium.org/nfcm.html

/3.7/ B. Barré, Nuclear Briefing: Radioactive Waste Management, AREVA, France /3.8/ A. Bugat, World Market for Nuclear Energy, Conference on Nuclear Energy and Science for the 21

Century, Washington D.C., 22 Ottobre 2003

/3.9/ P. T. León, J. M. Martinez-Val, A. Abánades, D. Saphier, Pebble Bed for Once Trough Nuclear Transmutation, Universidad Politécnica de Madrid, Spain

/3.10/ J. Esposito, Studio di una sorgente neutronica da fusione per la BNCT basata su un acceleratore compatto a bassa tensione e su originali materiali traslatori di spettro, Dottorato in Ingegneria Nucleare, relatori prof. N. Cerullo, prof. S. Lanza, Università di Pisa, Anno Accademico 2001-2002

/3.11/ P. T. León, D. Saphier, J. M. Martinez-Val, E. Mínguez, J. M. Perlado and M.

Piera, A Study on Once-Through Actinides Transmutation, Universidad Politécnica de Madrid, Spain

/4.1/ http://gen-iv.ne.doe.gov

/4.2/ U.S. DOE Nuclear Energy Research Advisory Committee and the Generation IV International Forum, A Technology Roadmap for Generation IV Nuclear Energy Systems, December 2002

/4.3/ U.S. DOE Nuclear Energy Research Advisory Committee, A Roadmap to Deploy New Nuclear Power Plants in the United States by 2010, Volume I – Summary Report, October 2001

/4.4/ International Atomic Energy Agency (IAEA) – http://www.iaea.org

nella prospettiva energetica futura, 21° Secolo n. 2, luglio 2004

/4.6/ N. Cerullo, G. Lomonaco, V. Romanello, I REATTORI A GAS AD ALTA TEMPERATURA – Nuovi sviluppi, La Termotecnica n. 10, Dicembre 2004

/4.7/ M. Masson, S. Grandjean, J. Lacquement, J. C. Thieblemont, J. Lacombe, HTGR spent fuels reprocessing : the CEA investigation program, 2

International Topical Meeting on HIGH TEMPERATURE REACTOR TECHNOLOGY, Beijing, China, September 22-24, 2004

/4.8/ K. Sawa, S. Yoshimuta, S. Shiozawa, S. Fujikawa, T. Tanaka, K. Watarumi, K.

Deushi, F. Koya, Study on Storage and Reprocessing Concept of the High Temperature Engineering Test Reactor (HTTR) Fuel, JAERI, Japan

/4.9/ G. D. Del Cul, B. B. Spencer, C. W. Forsberg, E. D. Collins, W. S. Rickman, TRISO-Coated Fuel Processing to Support High Temperature Gas-Cooled Reactors, Oak Ridge National Laboratory, September 2002

/4.10/ http://www.min.uc.edu/nuclear/htmfile/Deep-Burn-050412_files/slide0203.htm /4.11/ Berkeley University – http://www.nuc.berkeley.edu

/4.12/ http://www.pbmr.com /4.13/

http://www.ingegnerianucleare.net/Tematiche/4SN/4SNreattoriinnovativiC/4SNreattorii nnovativiC_htrprospettivaenergetica/4SNreattoriinnovativiC_htrprospettivaenergetica.h tm

/4.14/ N. Cerullo, Lezioni di Ingegneria del Nocciolo, DCMN, Pisa, 1988

/4.15/ G. R. Choppin, J. Liljenzin, J. Rydberg, Radiochemistry and Nuclear Chemistry, Butterworth-Heinemann, Boston, MA, 1995

/4.16/ S. Massara, P. Tetart, L. Boucher, A French Scenario for Fast Reactors Deployment over the XXI

Century, ARWIF2005, Oak Ridge, USA, 16-18 Febbraio 2005

/4.17/ W. F. G. van Rooijen, J. L. Kloostermann, T. H. J. J. van der Haagen, H. van Dam, Fuel design and core layout for a Gas Cooled Fast Reactor, Interfacultair Reactor Instituut, Delft University of Technology, January 2005

/4.18/ A. Conti, J. C. Bosq, «01/2004» 600 MWth GFR cores containing plates CERCER – Characteristics, CEA, Cadarache, December 2004

/4.19/ C. D. Bowman, Accelerator- Driven Systems for Nuclear Waste Transmutation,

Annual Review of Nuclear and Particle Science, Vol. 48: 505-556, 1998

/4.20/ Y. Kadi and J. P. Revol, Design of an Accelerator-Driven System for the Destruction of Nuclear Waste, Lectures given at the Workshop on Hybrid Nuclear System for Energy Production, Utilisation of Actinides & Transmutation of Long-Lived Radioactive Waste, Trieste, 3-7 September 2001

/4.21/ OECD/IAEA, Accelerator-Driven Systems (ADS) and Fast Reactors (FR) in Advanced Nuclear Fuel Cycles – A Comparative Study,2002

/5.1/ Uranium Information Centre Ltd. – http://www.uic.com.au

/5.2/ OECD/IAEA, Uranium 2003: Resources, Production and Demand, 2004

/5.3/ U.S. DOE, Generation IV Roadmap – Report of the Fuel Cycle Crosscut Group, March 18, 2001

/5.4/ V. Dekoussar, V. Ilyunin, A. Kalashnikov, M. Troyanov, The use of thorium for plutonium utilization in reactors, IAEA Techdoc 1319, Thorium fuel utilization:

Options and Trends, Proceedings of three IAEA meetings held in Vienna in 1997, 1998 and 1999 - Vienna, November 2002

/5.5/ A. Puill, Thorium utilization in PWRs, neutronics studies, IAEA Techdoc 1319, Thorium fuel utilization: Options and Trends, Proceedings of three IAEA meetings held in Vienna in 1997, 1998 and 1999 - Vienna, November 2002

/5.6/ J. Porta, S. Baldi, A. Puill, F. Huet, Thorium fuel for LWRs and innovative concepts: state of the art at the CEA/DRN, IAEA Techdoc 1319, Thorium fuel utilization: Options and Trends, Proceedings of three IAEA meetings held in Vienna in 1997, 1998 and 1999 - Vienna, November 2002

/5.7/ P. D. Wilson, K. F. Ainsworth, Potential advantages and drawbacks of the thorium fuel cycle in relation to current practice: a BNFL view, IAEA Techdoc 1319, Thorium fuel utilization: Options and Trends, Proceedings of three IAEA meetings held in Vienna in 1997, 1998 and 1999 - Vienna, November 2002

/5.8/ J. Kang, F. N. von Hippel, U-232 and the Proliferation-Resistance of U-233 in Spent Fuel, Science & Global Security, Volume 9 pp. 1-32, Taylor & Francis, 2001 /5.9/ Autorità per l’energia elettrica e il gas - http://www.autorita.energia.it

/6.1/ NEA/OECD, Fuels and Materials for Transmutation – A Status Report, 2005 /6.2/ J. J. Laidler, Separation Technology Development, Chemical Technology Division, Argonne National Laboratory

/6.3/ DOE, Advanced Fuel Cycle Initiative – Annual Report 2003

Studies in France, R&D Programme on Fuels and Targets, CEA, Cadarache

/6.5/ L. Ceretti, Analisi delle nuove tecnologie per la riduzione degli attinidi nei rifiuti radioattivi. Applicazione al caso del plutonio di origine militare, Tesi di Laurea in Ingegneria Nucleare, Relatori Prof. N. Cerullo, Prof. G. Forasassi, Dott. E. D’Agata, Anno Accademico 1998/1999

/6.6/ A. Galperin, A. Radkowsky, M. Todosow, A Competitive Thorium Fuel Cycle for Pressurized Water Reactors of Current Technology, in Proceedings of three IAEA Meetings held in Vienna in 1997, 1998 and 1999

/6.7/ C. Rodriguez, F. Venneri, D. Williams, Deep burn transmutation of nuclear waste, 1

International Topical Meeting on HIGH TEMPERATURE REACTOR TECHNOLOGY, Petten, NL, April 22-24, 2002

/7.1/ IAEA – Techdoc 154, Proceedings of the IAEA study group meeting sponsored by

/7.2/ J. Rouault, T. Y. C. Wei, The Gen. IV Gas Cooled Fast Reactor: Status of Studies,

Proceedings of ARWIF, February 2005

/7.4/ W. F. G. van Roijen, comunicazione privata, 15 Luglio 2005

/7.5/ W. F. G. van Rooijen, GCFR-STREP Work Package 1.1 research planning for 2005, Interfacultair Reactor Instituut, Delft University of Technology, June 2005

/7.6/ D. I. Poston, H. R. Trellue, User's manual, Version 2.0 for MONTEBURNS Version 1.0, LA-UR-99-4999 PSR-0455/01 – Settembre 1999

/7.7/ L.A.N.L., MCNP 4C: Monte Carlo N-Particle Transport Code System, edited by R.S.I.C. U.S.A. (New Mexico) – Aprile 2000

/7.8/ O.R.N.L., ORIGEN 2.1 Isotope Generation and Depletion Code Matrix Exponential Method, U.S.A. (Tennessee) – Agosto 1996

/7.9/ W. F. G. van Roijen, comunicazione privata, 13 Ottobre 2005

/7.10/ K. Kosako, N. Yamano, T. Fukahori, K. Shibata and A. Hasegawa, The Libraries FSXLIB and MATXSLIB based on JENDL-3.3, JAERI, July 2003

/7.11/ R. Orsi, M. Pescarini, A. I. Blokhin, V, Sinitsa, MCJEF22NEA.BOLIB – A JEF-

2.2 Cross Section Library for the MCNP Monte Carlo Code, ENEA, Bologna, 2000

/7.12/ W. F. G. van Rooijen, Research Planning WP 1.1 and WP 1.3 for TUD and

CIRTEN, July 2005, comunicazione privata

/8.1/ J. Fachinger, J. M. Turner, A. Nuttall, C. Bourdeloie, G. Brinkmann, H. Bruecher, W. von Lensa, Radioactive waste arising from HTR, 2

International Topical Meeting on HIGH TEMPERATURE REACTOR TECHNOLOGY, Beijing, China, September 22-24, 2004

/8.2/ E. Shwageraus, Rethinking the Light-Water Reactor Fuel Cycle, Massachusetts Institute of Technology, September 2003

/B.1/ B. Cuhlbreth, E. Bakker, J. Viggato, The fission Properties of Curium Separated from Spent Nuclear Fuel, Report, April 19, 2002, Department of Mechanical Engineering, University of Nevada, Las Vegas

/C.1/ D. Albright and K. Kramer, Neptunium 237 and Americium: World Inventories and Proliferation Concerns, June 10, 2005, Revised August 22, 2005 – http://www.inis.org

/D.1/ K. Tuček, Neutronic and Burnup Studies on Accelerator-driven Systems Dedicated to Nuclear Waste Transmutation, Doctoral Thesis – Royal Institute of Technology, Department of Physics, Stockholm, 2004

/D.2/ L. Donnet, J. M. Adnet, N, Faure, P. Bros, Ph. Brossard, F. Josso, The Development of the SESAME Process, OECD/IAEA, Actinide and fission product partitioning and transmutation, 5

Information Exchange Meeting – Mol, Belgium, 25- 27 November 1998

/D.3/ K. Kinoshita, M. Kurata, K. Uozumi, T. Inoue, Estimation of Material Balance in Pyrometallurgical Partiioning Process for TRUs from HLLW, OECD/IAEA, Actinide and fission product partitioning and transmutation, 5

Information Exchange Meeting – Mol, Belgium, 25-27 November 1998

/D.4/ D. Haas, J. Somers, A. Renard, A. La Fuente, Feasibility of the Fabrication of Americium Target, OECD/IAEA, Actinide and fission product partitioning and transmutation, 5

Information Exchange Meeting – Mol, Belgium, 25-27 November 1998

/D.5/ M. Delpech, J. Tommasi, A. Zaetta, H. Mouney, M. Salvatores, G. Vambenepe, Transmutation of Americium and Curium: review of solutions and impacts, OECD/IAEA, Actinide and fission product partitioning and transmutation, 5

Information Exchange Meeting – Mol, Belgium, 25-27 November 1998

/L.1/ S. Paci, Introduzione ai sistemi nucleari, Edizioni PLUS, Università di Pisa, 2003 /N.1/

/N.2/ ANSWER Software Service - WIMS-D/5: A Neutronic Code for Standard Lattice

Physics Analysis - A.E.A. Winfrith – 1995