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Fusion Technology Volume 32, 1997 - Issue 2
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Technical Paper

ANFIBE: A Comprehensive Model for Swelling and Tritium Release from Neutron-Irradiated Beryllium—I: Theory and Model Capabilities

Francesco Scaffidi-ArgentinaForschungszentrum Karlsruhe, Institut Jur Neutronenphysik und Reaktortechnik RO. Box 3640, D-76021 Karlsruhe, Germany
,
Mario Dalle DonneForschungszentrum Karlsruhe, Institut Jur Neutronenphysik und Reaktortechnik RO. Box 3640, D-76021 Karlsruhe, Germany
,
Claudio RonchiCommission of the European Union, Joint Research Centre Karlsruhe Establishment, European Institute for Transuranium Elements P.O. Box 2340, D-76125 Karlsruhe, Germany
&
Claudio FerreroEuropean Synchrotron Radiation Facility B.P. 220, F-38043 Grenoble Cedex, France
Pages 179-195 | Published online: 09 May 2017

Citations (13)

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M. Dalle Donne, A. Goraieb, G. Piazza & F. Scaffidi-Argentina. (2000) Measurement of the Heat Transfer Parameters in Infiltrated Binary Beryllium Beds: Comparison between the Results with PEHTRA and SUPER-PETRA. Fusion Technology 38:3, pages 310-319.
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M. Dalle Donne, A. Goraieb, G. Piazza & F. Scaffidi-Argentina. (2000) Experimental Investigations on the Thermal and Mechanical Behavior of Single Size Beryllium Pebble Beds. Fusion Technology 38:3, pages 290-298.
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Francesco Scaffidi-Argentina, Mario Dalle Donne, Claudio Ronchi & Claudio Ferrero. (1998) ANFIBE: A Comprehensive Model for Swelling and Tritium Release from Neutron-Irradiated Beryllium—II: Comparison of Model Predictions with Experimental Results. Fusion Technology 33:2, pages 146-163.
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Articles from other publishers (10)

Gregory De Temmerman, Kalle Heinola, Dmitriy Borodin, Sebastijan Brezinsek, Russell P. Doerner, Marek Rubel, Elżbieta Fortuna-Zaleśna, Christian Linsmeier, Daisuke Nishijima, Kai Nordlund, Michael Probst, Juri Romazanov, Elnaz Safi, Thomas Schwarz-Selinger, Anna Widdowson, Bastiaan J. Braams, Hyun-Kyung Chung & Christian Hill. (2021) Data on erosion and hydrogen fuel retention in Beryllium plasma-facing materials. Nuclear Materials and Energy 27, pages 100994.
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Romeu A. Pieritz, Jörg Reimann & Claudio Ferrero. (2011) 3D Tomography Analysis of the Inner Structure of Pebbles and Pebble Beds. Advanced Engineering Materials 13:3, pages 145-155.
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E. Rabaglino, C. Ronchi & A. Cardella. (2003) Recent progress in the modelling of helium and tritium behaviour in irradiated beryllium pebbles. Fusion Engineering and Design 69:1-4, pages 455-461.
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E Rabaglino, C Ferrero, J Reimann, C Ronchi & T Schulenberg. (2002) Study of the microstructure of neutron irradiated beryllium for the validation of the ANFIBE code. Fusion Engineering and Design 61-62, pages 769-773.
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S. Cho & M.A. Abdou. (2000) Analysis of tritium kinetics of SIBELIUS beryllium. Fusion Engineering and Design 51-52, pages 85-91.
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F. Scaffidi-Argentina, G.R. Longhurst, V. Shestakov & H. Kawamura. (2000) Beryllium R&D for fusion applications. Fusion Engineering and Design 51-52, pages 23-41.
Crossref
M. Dalle Donne, A. Goraieb, G. Piazza & F. Scaffidi-Argentina. (2000) Experimental investigations on the thermal and mechanical behaviour of a binary beryllium pebble bed. Fusion Engineering and Design 49-50, pages 521-528.
Crossref
Mohamed S. El-Genk & Jean-Michel Tournier. (2000) Estimates of helium gas release in 238PuO2 fuel particles for radioisotope heat sources and heater units. Journal of Nuclear Materials 280:1, pages 1-17.
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R.A. Anderl, R.A. Causey, J.W. Davis, R.P. Doerner, G. Federici, A.A. Haasz, G.R. Longhurst, W.R. Wampler & K.L. Wilson. (1999) Hydrogen isotope retention in beryllium for tokamak plasma-facing applications. Journal of Nuclear Materials 273:1, pages 1-26.
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J.M Martínez-Val, S Eliezer, Z Henis & M Piera. (1998) A tritium catalytic fusion reactor concept. Nuclear Fusion 38:11, pages 1651-1664.
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