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Publication List - Feng Xiao 2019 (20 / 421 entries)
Journal Paper
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S. Tann,
X. Deng,
Y. Shimizu,
R. Loubère,
F. Xiao.
Solution property preserving reconstruction for finite volume scheme: a boundary variation diminishing+multidimensional optimal order detection framework,
International Journal for Numerical Methods in Fluids,
Vol. 92,
pp. 603-634,
Dec. 2019.
Official location
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J. Jin,
X. Deng,
Y. Abe,
F. Xiao.
Uncertainty quantification of shock–bubble interaction simulations,
Shock Waves,
29,
1191-1204,
Nov. 2019.
Official location
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B. Xie,
X. Deng,
S. Liao,
F. Xiao.
High-order multi-moment finite volume method with smoothness adaptive fitting reconstruction for compressible viscous flow,
Journal of Computational Physics,
394,
559-593,
Oct. 2019.
Official location
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Peng Jin,
Bin Xie,
Feng Xiao.
Multi-moment finite volume method for incompressible flows on unstructured moving grids and its application to fluid-rigid body interactions,
Computers & Structures,
221,
91-110,
Sept. 2019.
Official location
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Qingchang Qin,
Xueshun Shen,
Chungang Chen,
Feng Xiao,
Yongjiu Dai,
Xingliang Li.
A 3D Nonhydrostatic Compressible Atmospheric Dynamic Core by Multi-moment Constrained Finite Volume Method,
Advances in Atmospheric Sciences,
Springer,
Vol. 36,
No. 10,
pp. 1129-1142,
Aug. 2019.
Official location
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X. Deng,
Y. Shimizu,
F. Xiao.
A fifth-order shock capturing scheme with two-stage boundary variation diminishing algorithm,
Journal of Computational Physics,
386,
323-349,
June 2019.
Official location
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Kohei IIDA,
Toshiya KOBAYASHI,
Kotaro TADANO,
Maolin CAI,
Toshinori FUJITA,
Feng XIAO,
Toshiharu KAGAWA.
Consideration of the Effects of Atmospheric Pressure Change in Determination of Flow-rate Characteristics of Components using Compressible Fluids by Isothermal Discharge Method,
TRANSACTIONS OF THE JAPAN FLUID POWER SYSTEM SOCIETY,
Vol. 50,
No. 1,
p. 25-30,
May 2019.
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X. Deng,
P. Boivin,
F. Xiao.
A new formulation for two-wave Riemann solver accurate at contact interfaces,
Physics of Fluids,
31,
046102,
Apr. 2019.
Official location
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Yuya Shimizu,
Xi Deng,
Feng Xiao.
BVD 原理に基づいた高精度衝撃波捕獲スキームの開発,
ながれ: 日本流体力学会誌,
38,
2,
101-104,
Apr. 2019.
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X. Deng,
B. Xie,
H. Teng,
F. Xiao.
High resolution multi-moment finite volume method for supersonic combustion on unstructured grids,
Applied Mathematical Modelling,
66,
404-423,
Feb. 2019.
Official location
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J. Jin,
Y.Z. Che,
J.F. Zheng,
F. Xiao.
Uncertainty Quantification of a Coupled Model for Wind Prediction at a Wind Farm in Japan,
Energies,
12,
8,
1505,
Jan. 2019.
Official location
International Conference (Not reviewed / Unknown)
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F.Xiao.
New Formulations to Construct Structure-Preserving Schemes for Moving Interface and Compressible Fluid Dynamics,
Structure Preserving Numerical Methods for Hyperbolic PDEs,
Nov. 2019.
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R. Kumar,
F. Xiao.
High-order interface representation in THINC method,
9th international conference on Numerical methods for multi-material fluid flow (MultiMat 2019),
Sept. 2019.
-
F. Xiao.
A robust and interface preserving formulation for compressible multiphase flows,
9th international conference on Numerical methods for multi-material fluid flow (MultiMat 2019),
Sept. 2019.
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S. Tann,
X. Deng,
Y. Shimizu,
R. Loubere,
F. Xiao.
Solution property preserving method for Euler equations: a BVD/MOOD approach,
SHARK-FV 2019 conference (Sharing Higher-order Advanced Know-how on Finite Volume) conferences,
May 2019.
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C.G. Chen,
X.L. Li,
F. Xiao,
X.S. Shen.
A nonhydrostatic dynamical core using multi-moment method on cubed-sphere grid,
The workshop on partial differential equations on the sphere (PDEs on the sphere 2019),
May 2019.
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X.L. Li,
C.G. Chen,
X. Deng,
X.S. Shen,
F. Xiao.
Development of oscillation-less nonhydrostatic atmospheric model by multimoment constrained finite volume method,
The workshop on partial differential equations on the sphere (PDEs on the sphere 2019),
Apr. 2019.
-
F.Xiao.
Solution-structure preserving reconstruction of finite volume method for compressible flow, Workshop on Numerical Compressible Flow,
Workshop on Numerical Compressible Flow,
Mar. 2019.
-
F.Xiao.
A new paradigm to design high-fidelity Godunov schemes for both smooth and discontinuous solutions in complex flow simulations,
International workshop on High Order Structure-Preserving Numerical Methods Algorithms, Analysis and Applications,
Jan. 2019.
Domestic Conference (Not reviewed / Unknown)
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