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Fusion Science and Technology Volume 44, 2003 - Issue 1: Proceedings of the Fifteenth Topical Meeting on The Technology of Fusion Energy (Part 1) Washington, D.C. November 17–21, 2002
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Technical Paper

Experimental Investigation and Analysis of the Effective Thermal Properties of Beryllium Packed Beds

A. Abou-SenaMechanical and Aerospace Engineering Department, UCLA, Los Angeles, CA 90095-1597 [email protected]
,
A. YingMechanical and Aerospace Engineering Department, UCLA, Los Angeles, CA 90095-1597 [email protected]
&
M. AbdouMechanical and Aerospace Engineering Department, UCLA, Los Angeles, CA 90095-1597 [email protected]
Pages 79-84 | Published online: 12 May 2017

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A. Abou-Sena, A. Ying & M. Abdou. (2005) Effective Thermal Conductivity of Lithium Ceramic Pebble Beds for Fusion Blankets: A Review. Fusion Science and Technology 47:4, pages 1094-1100.
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Articles from other publishers (15)

Joerg Reimann, Benjamin Fretz, Ramil Gaisin, Aniceto Goraieb, Jae-Hwan Kim, Suguru Nakano, Masaru Nakamichi & Pavel Vladimirov. (2021) Thermo-mechanical behavior of titanium beryllide pebble beds at ambient temperature. Fusion Engineering and Design 165, pages 112249.
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S. Benjamin Franklin, I. Karthikeyan & K. Ramesh. (2021) Finite element modeling of energy storage materials alumina using heat recovery in packed pebble bed heat exchanger. Materials Today: Proceedings 45, pages 1872-1877.
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Maulik Panchal, Abhishek Saraswat, Shrikant Verma & Paritosh Chaudhuri. (2020) Measurement of effective thermal conductivity of lithium metatitanate pebble bed by transient hot-wire technique. Fusion Engineering and Design 158, pages 111718.
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Peng-Hui Xiao, Ben-Wen Li & Ya-Song Sun. (2020) A model to determine the overall bed-to-wall heat transfer coefficient and its influence factor analysis in moving bed. International Journal of Heat and Mass Transfer 154, pages 119655.
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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 .
M. De Beer, C.G. Du Toit & P.G. Rousseau. (2017) A methodology to investigate the contribution of conduction and radiation heat transfer to the effective thermal conductivity of packed graphite pebble beds, including the wall effect. Nuclear Engineering and Design 314, pages 67-81.
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Lei Chen, Youhua Chen, Kai Huang & Songlin Liu. (2016) Investigation of effective thermal conductivity for pebble beds by one-way coupled CFD-DEM method for CFETR WCCB. Fusion Engineering and Design 106, pages 1-8.
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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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R Lo Frano, D Aquaro, L Scaletti & N Olivi. (2015) Characterization of the thermal conductivity for ceramic pebble beds. Journal of Physics: Conference Series 655, pages 012057.
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Swaren Bedarkar, Nurni Neelakantan Viswanathan & Nidambur Bharatha Ballal. (2015) Measurement of Thermal Conductivity along the Radial Direction in a Vertical Cylindrical Packed Bed. Journal of Powder Technology 2015, pages 1-7.
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R Lo Frano, M Moscardini & D Aquaro. (2014) Numerical-experimental analyses by Hot-Wire method of an alumina cylinder for future studies on thermal conductivity of the fusion breeder materials. Journal of Physics: Conference Series 547, pages 012037.
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Rosa Lo Frano, Donato Aquaro, Simone Pupeschi & Marigrazia Moscardini. (2014) Thermo-mechanical test rig for experimental evaluation of thermal conductivity of ceramic pebble beds. Fusion Engineering and Design 89:7-8, pages 1309-1313.
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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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Watson L. Vargas & J. J. McCarthy. (2007) Thermal expansion effects and heat conduction in granular materials. Physical Review E 76:4.
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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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