Evaluation of Thermal Conductivity of Hyperstoichiometric UO_<2+x> by Molecular Dynamics Simulation - Collections | Kyushu University Library

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＜journal article＞
Evaluation of Thermal Conductivity of Hyperstoichiometric UO_<2+x> by Molecular Dynamics Simulation

Creator	Creator Name Yamasaki, Sho ヤマサキ, ショウ Affiliation Affiliation Name Institute of Environmental Systems, Faculty of Engineering, Kyushu University 九州大学大学院工学研究院
	Author PID K001333 Creator Name Arima, Tatsumi 有馬, 立身アリマ, タツミ Affiliation Affiliation Name Institute of Environmental Systems, Faculty of Engineering, Kyushu University 九州大学大学院工学研究院
	Creator Name Idemitsu, Kazuya 出光, 一哉イデミツ, カズヤ Affiliation Affiliation Name Institute of Environmental Systems, Faculty of Engineering, Kyushu University 九州大学大学院工学研究院
	Author PID K001277 Creator Name Inagaki, Yaohiro 稲垣, 八穂広イナガキ, ヤオヒロ Affiliation Affiliation Name Institute of Environmental Systems, Faculty of Engineering, Kyushu University
Language	English
Publisher	Springer
Date	2007-04-12
Source Title	International Journal of Thermophysics
Vol	28
Issue	2
First Page	661
Last Page	673
Access Rights	metadata only access
Rights	Public access to the fulltext file is restricted by copyright reason.
Rights	著作権処理未完了のため本文ファイル非公開
Related DOI	https://doi.org/10.1007/s10765-007-0170-6
Related URI
Abstract	The thermal conductivity of UO_<2+x> has been investigated by an equilibrium molecular dynamics (EMD) simulation up to 2000 K using the Born–Mayer–Huggins interatomic potential with the partially ioni...c model. In the present EMD system with the Green–Kubo method, the thermal conductivity was determined by the auto-correlation functions of energy and charge currents and the cross-coupling term. The thermal conductivity of UO_<2+x> decreased with an increase of x and temperature. Its temperature dependence was relatively small for large x values, which was attributed to phonon scattering by excess oxygens. In addition, the heat capacity was calculated using the phonon-level density deduced by the velocity auto-correlation function for constituent ions. The phonon velocity was also evaluated by the phonon- dispersion relationship. Using these thermal properties obtained by EMD calculations, the effect of excess oxygens on the phonon mean free path was discussed.show more

Details

PISSN	0195-928X
EISSN	1572-9567
NCID	AA10619959
Record ID	7177881
Subject Terms	equilibrium molecular dynamics simulation
	heat capacity
	hyperstoichiometric uranium oxide
	phonon mean free path
	thermal conductivity
Type	Article
Created Date	2024.05.08
Modified Date	2024.05.08