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Utilisation and Reliability of High Power Proton Accelerators: Workshop Proceedings, Santa Fe, New Mexico, Usa, 12-16 May 2002 (Nuclear Science) PDF

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Nuclear Science 2003 U tilisation and Reliability of High Power Proton Accelerators U tilisation and Reliability U t i l i s a of High Power Proton R&D activities and construction plans related to high power proton accelerators are being considered ti o n in various countries to promote basic and applied sciences. This includes plans for accelerator-driven a nuclear energy systems (ADS) for the transmutation of nuclear waste. The performance of such hybrid n d Accelerators nuclear systems depends to a large extent on the specification and reliability of high power acceler- R e ators, as well as the integration of the accelerator with spallation targets and subcritical systems. li a b i l i Both accelerator scientists and reactor physicists gathered together at an NEA workshop to ty Workshop Proceedings discuss, inter alia, the reliability of the accelerator and the impact of beam interruptions on the design o f and performance of the ADS; spallation target design characteristics and their impact on the H Santa Fe, New Mexico, USA i g subcritical system design; safety and operational characteristics of a subcritical system driven by a h P 12-16 May 2002 spallation source; and test facilities. o w e r These proceedings contain all the technical papers presented at the workshop as well as P r summaries of the discussions held during each technical session. o t o n A c c e l e r a t o r s -:HSTCQE=VUWVV]: (66 2003 09 1 P) €90.00 N U C L E A R • E N E R G Y • A G E N C Y ISBN 92-64-10211-6 Nuclear Science Utilisation and Reliability of High Power Proton Accelerators Workshop Proceedings Santa Fe, New Mexico, USA 12-16 May 2002 © OECD 2003 NUCLEAR ENERGY AGENCY ORGANISATION FOR ECONOMIC CO-OPERATION AND DEVELOPMENT ORGANISATION FOR ECONOMIC CO-OPERATION AND DEVELOPMENT Pursuant to Article 1 of the Convention signed in Paris on 14th December 1960, and which came into force on 30th September 1961, the Organisation for Economic Co-operation and Development (OECD) shall promote policies designed: − to achieve the highest sustainable economic growth and employment and a rising standard of living in Member countries, while maintaining financial stability, and thus to contribute to the development of the world economy; − to contribute to sound economic expansion in Member as well as non-member countries in the process of economic development; and − to contribute to the expansion of world trade on a multilateral, non-discriminatory basis in accordance with international obligations. The original Member countries of the OECD are Austria, Belgium, Canada, Denmark, France, Germany, Greece, Iceland, Ireland, Italy, Luxembourg, the Netherlands, Norway, Portugal, Spain, Sweden, Switzerland, Turkey, the United Kingdom and the United States. The following countries became Members subsequently through accession at the dates indicated hereafter: Japan (28th April 1964), Finland (28th January 1969), Australia (7th June 1971), New Zealand (29th May 1973), Mexico (18th May 1994), the Czech Republic (21st December 1995), Hungary (7th May 1996), Poland (22nd November 1996), Korea (12th December 1996) and the Slovak Republic (14 December 2000). The Commission of the European Communities takes part in the work of the OECD (Article 13 of the OECD Convention). NUCLEAR ENERGY AGENCY The OECD Nuclear Energy Agency (NEA) was established on 1st February 1958 under the name of the OEEC European Nuclear Energy Agency. It received its present designation on 20th April 1972, when Japan became its first non-European full Member. NEA membership today consists of 28 OECD Member countries: Australia, Austria, Belgium, Canada, Czech Republic, Denmark, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Japan, Luxembourg, Mexico, the Netherlands, Norway, Portugal, Republic of Korea, Slovak Republic, Spain, Sweden, Switzerland, Turkey, the United Kingdom and the United States. The Commission of the European Communities also takes part in the work of the Agency. The mission of the NEA is: − to assist its Member countries in maintaining and further developing, through international co-operation, the scientific, technological and legal bases required for a safe, environmentally friendly and economical use of nuclear energy for peaceful purposes, as well as − to provide authoritative assessments and to forge common understandings on key issues, as input to government decisions on nuclear energy policy and to broader OECD policy analyses in areas such as energy and sustainable development. Specific areas of competence of the NEA include safety and regulation of nuclear activities, radioactive waste management, radiological protection, nuclear science, economic and technical analyses of the nuclear fuel cycle, nuclear law and liability, and public information. The NEA Data Bank provides nuclear data and computer program services for participating countries. In these and related tasks, the NEA works in close collaboration with the International Atomic Energy Agency in Vienna, with which it has a Co-operation Agreement, as well as with other international organisations in the nuclear field. ©OECD 2003 Permission to reproduce a portion of this work for non-commercial purposes or classroom use should be obtained through the Centre français d’exploitation du droit de copie (CCF), 20, rue des Grands-Augustins, 75006 Paris, France, Tel. (33-1) 44 07 47 70, Fax (33-1) 46 34 67 19, for every country except the United States. In the United States permission should be obtained through the Copyright Clearance Center, Customer Service, (508)750-8400, 222 Rosewood Drive, Danvers, MA 01923, USA, or CCC Online: http://www.copyright.com/. All other applications for permission to reproduce or translate all or part of this book should be made to OECD Publications, 2, rue André-Pascal, 75775 Paris Cedex 16, France. FOREWORD These proceedings contain the papers presented at the Third Workshop on Utilisation and Reliability of High Power Proton Accelerators (HPPA), organised by the Nuclear Science Committee of the OECD Nuclear Energy Agency (NEA). The first meeting in this series was held in Mito, Japan on 13-15 October 1998 and the second meeting took place in Aix-en-Provence, France on 22- 24 November 1999. The proceedings of both meetings have been published by the OECD/NEA (ISBN 92-64-17068-5 and ISBN 92-64-18749-9). The third workshop focused on (1) the reliability of the accelerator and the impact of beam interruptions on the design and performance of the accelerator-driven system, (2) spallation target design characteristics and the impact on the multiplier design, including materials, radiation damage and embrittlement, enhanced corrosion, cooling issues with high-power density, and windowless design concepts, and (3) safety and operational characteristics of a multiplying system driven by a spallation source. A fourth meeting in this series of workshops is planned to be held in spring 2004 in the Republic of Korea. Acknowledgements The OECD/NEA gratefully acknowledges the Los Alamos National Laboratory (LANL) for hosting the Third Workshop on Utilisation and Reliability of High Power Proton Accelerators. Special thanks are extended to Ms. Berylen Rogers (LANL) for having collected the workshop papers and to Ms. Hélène Déry (NEA) for having prepared the proceedings for publication. 3 TABLE OF CONTENTS FOREWORD................................................................................................................................... 3 EXECUTIVE SUMMARY............................................................................................................. 9 SESSION I: OPENING CHAIR: D. RUSTHOI......................................................................................................... 13 B. Carluec, H. Ait Abderahim, A.C. Mueller The European programme..................................................................................................... 15 W.S. Park, Y.S. Cho, B.H. Choi Korean R&D programme for HPPA..................................................................................... 33 F. Goldner The US advanced accelerator applications programme........................................................ 45 T.P. Wangler Reliable linac design for accelerator-driven subcritical reactor systems.............................. 49 Th. Stammbach, S. Adam, A. Mezger, P. Sigg, P.A. Schmelzbach Reliable cyclotron design...................................................................................................... 59 G.S. Bauer Towards reliable high power spallation target designs......................................................... 81 M. Salvatores, A. D’Angelo, D. Naberejnev The demonstration of the ADS concept................................................................................ 95 S.A. Maloy, M.R. James, G. Willcutt, W.F. Sommer, M. Sokolov, L.L. Snead, M.L. Hamilton, F. Garner The mechanical properties of 316L/304L stainless steels, Alloy 718 and Mod 9Cr-1Mo after irradiation in a spallation environment................................................. 105 SESSION II: ACCELERATOR, TARGET/WINDOW/MATERIALS AND MULTIPLIER CHAIR: R. SHEFFIELD.................................................................................................... 125 R. Gobin, P.-Y. Beauvais, D. Bogard, R. Ferdinand, P. Mattéi Reliability tests of the high-power proton source SILHI at CEA/Saclay.............................. 127 5 E. Chiaveri, R. Losito, S. Calatroni, R. Ballantini, A. Chincarini, G. Gemme, R. Parodi D. Barni, A. Bosotti, C. Pagani, P. Pierini Operational experience with a 352 MHz 5-cell accelerating structure for the high energy section of the TRASCO linac...................................................................... 135 N.T. Callaway, R.D. Ryder Beam reliability and equipment downtime tracking – How LANSCE closes the loop........ 145 T. Matsumoto Comments to accelerator-driven system............................................................................... 151 N. Ouchi R&D status of super-conducting proton linac and the KEK/JAERI high intensity proton accelerator project................................................................................................................. 157 R. Valdiviez, D. Schrage, S. Shen, K. Kishiyama The use of NEG vacuum pumps on the LEDA RFQ............................................................ 167 R.S. Lillard, G.T. Chandler, P.D. Ferguson, F.D. Gac, M.R. James, S.A. Maloy, M.A. Paciotti, L.S. Waters, G.J. Willcutt Corrosion measurements on APT prototypic materials in the LANSCE high-power proton beam and applicability to other systems.................................................................... 175 M.R. James, R.T. Klann, G.L. Morgan, E.J. Pitcher, M.A. Paciotti, J.M. Oostens Preliminary measurements from a thick lead-bismuth target using 800 MeV protons......... 193 R.C. Haight, M. Devlin Gas production cross-section measurements at LANSCE.................................................... 201 X. Cheng, P.J. Finck, J. Roglans-Ribas, T. Schulenberg Thermal-hydraulic design analysis of a 5 MW sodium-cooled tungsten target.................... 209 SESSION III: TEST FACILITIES AND CONTROL/SAFETY/SHUTDOWN CHAIR: Ph. FINCK............................................................................................................. 225 M. Eriksson, J. Wallenius, J.E. Cahalan, K. Tucek, W. Gudowski Safety analysis of Na and Pb-Bi coolants in response to beam instabilities......................... 227 J.E. Cahalan, M. Eriksson Active and passive safety control performance in subcritical, accelerator-driven nuclear reactors..................................................................................................................... 237 A. Negrini, G. Proto Operating requirements for a proton beam accelerator to couple with a subcritical system............................................................................................................... 259 B.E. Boyack, M.W. Cappiello, K.O. Pasamehmetoglu Safe shutdown of accelerator-driven systems....................................................................... 289 6 D. Barni, P. Michelato, D. Sertore, A. Bonucci, R. Giannantonio, P. Turroni, L. Cinotti Theoretical and experimental evaluation of the windowless interface for the TRASCO-ADS project.......................................................................................................... 299 K. Van Tichelen, P. Kupschus, B. Arien, H. Aït Abderrahim Design and verification experiments for the windowless spallation target of the ADS prototype MYRRHA.............................................................................................. 311 L. Zanini, A. Ferrari, A. Herrera-Martínez, Y. Kadi, C. Rubbia, N. Burgio, M. Carta, A. Santagata, L. Cinotti Radioprotection calculations for the TRADE experiment.................................................... 327 F.E. Dunn Thermal response of the multiplier of an accelerator-driven system to beam interruptions................................................................................................................. 345 M. Cappiello, K. Pasamehmetoglu, E. Pitcher, R. Guffee, W. Chaves, G. Willcutt Accelerator-driven test facility: modular target and multiplier system concept design description.................................................................................................... 359 Y. Gohar, P. Finck, A. Hanson, J. Herceg, M. Koploy, L. Krajtl, P. Mijatovic, W.D. Pointer, J. Saiveau, T. Sofu, M. Todosow Lead-bismuth spallation target design of the accelerator-driven test facility (ADTF).......... 373 V. Tcharnotskaia, C. Ammerman, K. Woloshun Results from the initial operation of the LANL DELTA loop.............................................. 385 SUMMARY OF DISCUSSION SESSIONS................................................................................ 397 Chair: M. Cappiello Summary of working group discussion on design considerations, reliability performance and requirements for the accelerator................................................................ 399 Chairs: Carlo Pagani, P. Colestock Summary of working group discussion on accelerators........................................................ 401 Chairs: E. Pitcher, E. Gonzalez Summary of working group discussion on multiplier........................................................... 405 Chairs: K. Pasemehmetoglu, G. Laffont Summary of working group discussion on target technology............................................... 409 Chair: M. Cappiello Summary of working group discussion on control/safety/shutdown.................................... 413 Chair: K. Pasemehmetoglu Summary of final working group discussion........................................................................ 417 List of participants........................................................................................................................... 421 7 EXECUTIVE SUMMARY Background R&D activities and construction plans related to high power proton accelerators (HPPAs) are being considered in various countries to promote basic and applied sciences, including accelerator- driven nuclear energy systems (ADS). The performance of such hybrid nuclear systems depends to a large extent on the specification and reliability of the particle accelerator, as well as the integration of the accelerator with spallation targets and in some cases, subcritical assemblies. The present meeting is a follow-up to the second workshop on “Utilisation and Reliability of High Power Proton Accelerators” that was hosted by CEA Cadarache and held in Aix-en-Provence, France in 1999. Many of the questions discussed during the Aix-en-Provence workshop were further developed at this meeting. In addition, there were specific presentations devoted to safety, regulatory and technological requirements for the commissioning, operation and restart of hybrid nuclear systems. Topics covered by the workshop The meeting consisted of plenary sessions with invited papers, contributed papers, working group discussions and general discussions. Topics of contributed papers included: • accelerator technology; • target, window and multiplier technology; • control, safety and shutdown; • test facilities. Main findings, general conclusions and needed R&D General • Safety vs. performance – k for an ADS needs to be established (lower is safer, higher eff provides more performance); however, fuel must first be determined before a specific k eff can be implemented in a design. 9

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