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Fusion Technology Volume 38, 2000 - Issue 3: Special Issue on Beryllium Technology for Fusion
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Technical Paper

Experimental Investigations on the Thermal and Mechanical Behavior of Single Size Beryllium Pebble Beds

M. Dalle DonneForschungszentrum Karlsruhe, IKET P. O. Box 3640 D-76021 Karlsruhe Germany
,
A. GoraiebGoraieb V ersuchstechnik In der Tasch 4a D-76227 Karlsruhe Germany
,
G. PiazzaForschungszentrum Karlsruhe, IKET P. O. Box 3640 D-76021 Karlsruhe Germany
&
F. Scaffidi-ArgentinaForschungszentrum Karlsruhe, IKET P. O. Box 3640 D-76021 Karlsruhe Germany
Pages 290-298 | Published online: 09 May 2017

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Read on this site (1)

A. Abou-Sena, A. Ying & M. Abdou. (2003) Experimental Investigation and Analysis of the Effective Thermal Properties of Beryllium Packed Beds. Fusion Science and Technology 44:1, pages 79-84.
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Articles from other publishers (13)

Jian Wang, M.Z. Lei, S.L. Xu, H. Yang, P.H. Zhao, K. Xu & Y.T. Song. (2021) DEM simulation of mechanical behavior in one-dimensional compression of crushable ceramic pebble bed. Fusion Engineering and Design 168, pages 112606.
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Masaru Nakamichi, Jae-Hwan Kim, Makoto M. Nakamura, Tamaki Shibayama, Christopher K. Dorn, Chakin Vladimir, Dmitry V. Bachurin, Christopher Stihl & Pavel V. Vladimirov. 2020. Comprehensive Nuclear Materials. Comprehensive Nuclear Materials 203 250 .
Xiaoliang Wang, Jie Zheng & Hongli Chen. (2016) Application of a model to investigate the effective thermal conductivity of randomly packed fusion pebble beds. Fusion Engineering and Design 106, pages 40-50.
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Xiaoliang Wang, Jie Zheng & Hongli Chen. (2016) A prediction model for the effective thermal conductivity of mono-sized pebble beds. Fusion Engineering and Design 103, pages 136-151.
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Yixiang Gan & Marc Kamlah. (2010) Thermo-mechanical modelling of pebble bed–wall interfaces. Fusion Engineering and Design 85:1, pages 24-32.
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J. Reimann, G. Piazza & H. Harsch. (2006) Thermal conductivity of compressed beryllium pebble beds. Fusion Engineering and Design 81:1-7, pages 449-454.
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A.J. Slavin, E. Irvine & S. Penson. (2004) Analytical model for the thermal conductivity of a binary bed of packed spheroids in the presence of a static gas, with no adjustable parameters provided contact conductance is negligible. International Journal of Heat and Mass Transfer 47:5, pages 1015-1021.
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Claudio Nardi, Luigi Petrizzi & Giovanni Piazza. (2003) A breeding blanket in ITER-FEAT. Fusion Engineering and Design 69:1-4, pages 315-319.
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G. Piazza, J. Reimann, G. Hofmann, S. Malang, A.A. Goraieb & H. Harsch. (2003) Heat transfer in compressed beryllium pebble beds. Fusion Engineering and Design 69:1-4, pages 227-231.
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J Reimann, L Boccaccini, M Enoeda & A.Y Ying. (2002) Thermomechanics of solid breeder and Be pebble bed materials. Fusion Engineering and Design 61-62, pages 319-331.
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A.J. Slavin, V. Arcas, C.A. Greenhalgh, E.R. Irvine & D.B. Marshall. (2002) Theoretical model for the thermal conductivity of a packed bed of solid spheroids in the presence of a static gas, with no adjustable parameters except at low pressure and temperature. International Journal of Heat and Mass Transfer 45:20, pages 4151-4161.
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R.J. Goldstein, E.R.G. Eckert, W.E. Ibele, S.V. Patankar, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, A. Bar-Cohen, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F.A. Kulacki, U. Kortshagen & S. Garrick. (2002) Heat transfer – a review of 2000 literature. International Journal of Heat and Mass Transfer 45:14, pages 2853-2957.
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G. Vella, P.A. Di Maio, E. Oliveri, M. Dalle Donne, G. Piazza & F. Scaffidi-Argentina. (2001) Modelling of the thermal-mechanical behaviour of a single size beryllium pebble bed. Fusion Engineering and Design 58-59, pages 635-640.
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