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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

Effective Thermal Conductivity of a Li2TiO3 Pebble Bed for a DEMO Blanket

T. HatanoNaka Fusion Research Establishment, Japan Atomic Energy Research Institute, 801-1 Naka-machi, Naka-gun, Ibaraki-ken, 311-0193 Japan, 81-29-270-7570
,
M. EnoedaNaka Fusion Research Establishment, Japan Atomic Energy Research Institute, 801-1 Naka-machi, Naka-gun, Ibaraki-ken, 311-0193 Japan, 81-29-270-7588
,
S. SuzukiNaka Fusion Research Establishment, Japan Atomic Energy Research Institute, 801-1 Naka-machi, Naka-gun, Ibaraki-ken, 311-0193 Japan, 81-29-270-7551
,
Y. KosakuNaka Fusion Research Establishment, Japan Atomic Energy Research Institute, 801-1 Naka-machi, Naka-gun, Ibaraki-ken, 311-0193 Japan, 81-29-270-7570
&
M. AkibaNaka Fusion Research Establishment, Japan Atomic Energy Research Institute, 801-1 Naka-machi, Naka-gun, Ibaraki-ken, 311-0193 Japan, 81-29-270-7581
Pages 94-98 | Published online: 12 May 2017

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M. Moscardini, S. Pupeschi, Y. Gan, F. A. Hernández & M. Kamlah. (2019) Discrete Element Analysis of Heat Transfer in the Breeder Beds of the European Solid Breeder Blanket Concept. Fusion Science and Technology 75:4, pages 283-298.
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Christopher Kang, Yi-Hyun Park, Jon T. Van Lew, Alice Ying, Mohamed Abdou & Seungyon Cho. (2017) Transient Hot-Wire Experimental System for Measuring the Effective Thermal Conductivity of a Ceramic Breeder Pebble Bed. Fusion Science and Technology 72:3, pages 263-270.
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Mikio Enoeda, Toshihisa Hatano, Kunihiko Tsuchiya, Kentaro Ochiai, Yoshinori Kawamura, Kimio Hayashi, Takeo Nishitani, Masataka Nishi & Masato Akiba. (2005) Development of Solid Breeder Blanket at JAERI. Fusion Science and Technology 47:4, pages 1060-1067.
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Articles from other publishers (24)

Chirag Sedani, Paritosh Chaudhuri & Manoj Kumar Gupta. (2023) Heat transfer and fluid flow analysis of pebble bed and its verification with artificial neural network. Nuclear Materials and Energy 35, pages 101439.
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Chirag Sedani, Maulik Panchal, Vipul Tanna, Paritosh Chaudhuri & Manoj Kumar Gupta. (2022) Analysis of effective thermal conductivity of pebble bed by artificial neural network and its computational and experimental verification. Case Studies in Thermal Engineering 40, pages 102548.
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Maulik Panchal, Vrushabh Lambade, Vimal Kanpariya, Harsh Patel & Paritosh Chaudhuri. (2021) Measurement of effective thermal conductivity of lithium metatitanate pebble beds by steady-state radial heat flow method. Fusion Engineering and Design 172, pages 112854.
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Harsh Patel, Maulik Panchal, Abhishek Saraswat, Nirav Patel & Paritosh Chaudhuri. (2021) Simultaneous measurement of effective thermal conductivity and effective thermal diffusivity of Li2TiO3 pebble bed using transient hot-wire technique. Fusion Engineering and Design 171, pages 112564.
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Raghuram Karthik Desu, Akhil Reddy Peeketi & Ratna Kumar Annabattula. (2020) Influence of bed conditions on the effective thermal conductivity of ceramic breeder pebble beds using thermal DEM (TDEM). Fusion Engineering and Design 159, pages 111767.
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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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Cong Wang, Lei Chen & Songlin Liu. (2020) Experimental measurements for the effective thermal conductivity of pebble beds with uncertainty analysis. Fusion Engineering and Design 156, pages 111707.
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Niraj J. Kulkarni, Debapriya Mandal, Channamallikarjun S. Mathpati & Vishwanath H. Dalvi. (2020) Modeling and validation of heat transfer in packed bed with internal heat generation. Heat Transfer 49:5, pages 2961-2976.
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Akhil Reddy Peeketi, Marigrazia Moscardini, Simone Pupeschi, Yixiang Gan, Marc Kamlah & Ratna Kumar Annabattula. (2019) Analytical estimation of the effective thermal conductivity of a granular bed in a stagnant gas including the Smoluchowski effect. Granular Matter 21:4.
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Cong Wang, Lei Chen & Songlin Liu. (2019) A DEM-CFD numerical model for the prediction of the effective thermal conductivity of pebble beds with contact conduction. Fusion Engineering and Design 147, pages 111257.
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Jian Yang, Yingxue Hu & Qiuwang Wang. (2019) Investigation of Effective Thermal Conductivity for Ordered and Randomly Packed Bed with Thermal Resistance Network Method. Energies 12:9, pages 1666.
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Lei Chen, Cong Wang, Marigrazia Moscardini, Marc Kamlah & Songlin Liu. (2019) A DEM-based heat transfer model for the evaluation of effective thermal conductivity of packed beds filled with stagnant fluid: Thermal contact theory and numerical simulation. International Journal of Heat and Mass Transfer 132, pages 331-346.
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M. Moscardini, Y. Gan, S. Pupeschi & M. Kamlah. (2018) Discrete element method for effective thermal conductivity of packed pebbles accounting for the Smoluchowski effect. Fusion Engineering and Design 127, pages 192-201.
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Maulik Panchal, Christopher Kang, Alice Ying & Paritosh Chaudhuri. (2018) Experimental measurement and numerical modeling of the effective thermal conductivity of lithium meta-titanate pebble bed. Fusion Engineering and Design 127, pages 34-39.
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S. Pupeschi, R. Knitter & M. Kamlah. (2017) Effective thermal conductivity of advanced ceramic breeder pebble beds. Fusion Engineering and Design 116, pages 73-80.
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D. Mandal, N. Kulkarni, S. Gosavi & C.S. Mathpati. (2017) Experimental investigation of effective thermal conductivity of packed lithium-titanate pebble bed with external heat source and flow of helium. Fusion Engineering and Design 115, pages 56-66.
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Maulik Panchal, Paritosh Chaudhuri, Jon T Van Lew & Alice Ying. (2016) Numerical modelling for the effective thermal conductivity of lithium meta titanate pebble bed with different packing structures. Fusion Engineering and Design 112, pages 303-310.
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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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Lei Chen, Youhua Chen, Kai Huang & Songlin Liu. (2015) Effective Thermal Property Estimation of Unitary Pebble Beds Based on a CFD-DEM Coupled Method for a Fusion Blanket. Plasma Science and Technology 17:12, pages 1083-1087.
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Yuanjie Li, Wanli Yang, Cheng Jin, Pinghui Zhao & Hongli Chen. (2015) Design and research on the measurement platform of the effective thermal conductivity for Li4SiO4 and Li2TiO3 pebble bed. Fusion Engineering and Design 98-99, pages 1911-1914.
Crossref
Hao Ran Cao, Rong Hua Huang & Jun Heng Li. (2014) Theoretical Calculation and Numerical Investigation for the Effective Thermal Conductivity of Packed Li<sub>2</sub>TiO<sub>3</sub> Pebble Bed. Advanced Materials Research 953-954, pages 627-630.
Crossref
S Suzuki, M Enoeda, T Hatano, T Hirose, K Hayashi, H Tanigawa, K Ochiai, T Nishitani, K Tobita & M Akiba. (2006) Key achievements in elementary R&D on water-cooled solid breeder blanket for ITER test blanket module in JAERI. Nuclear Fusion 46:2, pages 285-290.
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Hisashi Tanigawa, Toshihisa Hatano, Mikio Enoeda & Masato Akiba. (2005) Effective thermal conductivity of a compressed Li2TiO3 pebble bed. Fusion Engineering and Design 75-79, pages 801-805.
Crossref
Masato AKIBA, Etsuo ISHITSUKA, Mikio ENOEDA, Takeo NISHITANI & Satoshi KONISHI. (2003) Development of Supercritical Pressure Water Cooled Solid Breeder Blanket in JAERI. Journal of Plasma and Fusion Research 79:9, pages 929-934.
Crossref

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