Zhang Yimin,Mi Jin,Qiu Lu,Zhu Jianqin,Li Dike,Cheng Zeyuan.Comparison of Proper Orthogonal Decomposition and Auto-Encoder as Reduced-Order Models for Reconstruction and Prediction of Turbine Blade Temperature Field with Sparse Data:ASME Journal of Heat and Mass Transfer,2025,147(7):073801

Mi Jin,Qiu Lu,Zhang Yimin,Zhu Jianqin.A multi-condition spectral proper orthogonal decomposition approach for reconstruction of transient temperature fields in turbine blades:Applied Thermal Engineering,2025,279:127506

Liu Xiang,Tong Zi-Xiang.Insight into enthalpy-based lattice Boltzmann method for solid-liquid phase change without numerical diffusion:International Journal of Heat and Mass Transfer,2024,239:126534

Tong Zi-Xiang.A local synergy angle of velocity, temperature and pressure fields for enhancement of comprehensive heat transfer performance:Case Studies in Thermal Engineering,2024,64:105466

Liu Xiang,Tong Zi-Xiang.Enthalpy-based cascaded lattice Boltzmann method for conjugate heat transfer:International Communications in Heat and Mass Transfer,2024,159:107956

Wang Si-Cheng.Investigation on outlet boundary conditions in lattice Boltzmann simulations of flow boiling heat transfer:Physics of Fluids,2024,36(7):073342

Tong Zi-Xiang.Mass Transfer Analyses of Reactive Boundary Schemes for Lattice Boltzmann Method with Staircase Approximation:Advances in Aerodynamics,2024,6:9

Tong Zi-Xiang.Investigation of field synergy principle for convective heat transfer with temperature-dependent fluid properties:Case Studies in Thermal Engineering,2023,45:102926

Liu Xiang.Enthalpy-based immersed boundary-lattice Boltzmann model for solid-liquid phase change in porous media under local thermal non-equilibrium condition:International Journal of Thermal Sciences,2022,182:10778

Wang Si-Cheng.Unit conversion in pseudopotential lattice Boltzmann method for liquid-vapor phase change simulations:Physics of Fluids,2022,34(10):103305