His scientific interests lie mostly in Thermodynamics, Heat transfer, Mechanics, Thermal and Heat transfer coefficient. His research in Thermodynamics tackles topics such as Flow which are related to areas like Anisotropy. His research in Heat transfer is mostly focused on Heat transfer enhancement.
The concepts of his Mechanics study are interwoven with issues in Fin, Heat exchanger and Baffle. His Thermal research is multidisciplinary, incorporating elements of Thermal conductivity, Composite material, Inlet, Thermal efficiency and Energy transformation. His Parabolic trough research is multidisciplinary, relying on both Optics and Finite volume method.
The scientist’s investigation covers issues in Mechanics, Heat transfer, Thermodynamics, Lattice Boltzmann methods and Composite material. His Mechanics research incorporates elements of Tube and Heat exchanger. His study in Heat transfer is interdisciplinary in nature, drawing from both Fin and Pressure drop.
His is involved in several facets of Thermodynamics study, as is seen by his studies on Thermal energy storage, Thermal, Natural convection and Mass transfer. His Thermal energy storage study combines topics from a wide range of disciplines, such as Phase-change material and Molten salt. His research on Lattice Boltzmann methods also deals with topics like
Heat transfer, Mechanics, Composite material, Thermal and Chemical engineering are his primary areas of study. His studies in Heat transfer integrate themes in fields like Fin and Porous medium. His Mechanics study integrates concerns from other disciplines, such as Heat exchanger and Transient.
The Composite material study combines topics in areas such as Heat transfer enhancement and Thermal energy storage. His work deals with themes such as Thermal conduction, Computer simulation and Solar energy, which intersect with Thermal. The various areas that Ya-Ling He examines in his Lattice Boltzmann methods study include Representative elementary volume and Convection.
His scientific interests lie mostly in Heat transfer, Mechanics, Composite material, Fluid dynamics and Heat transfer enhancement. Ya-Ling He combines subjects such as Thermal conductivity, Solar power tower, Heat exchanger, Aerospace engineering and Lattice Boltzmann methods with his study of Heat transfer. Ya-Ling He has included themes like Parabolic trough and Porous medium in his Mechanics study.
His studies examine the connections between Composite material and genetics, as well as such issues in Thermal energy storage, with regards to Latent heat, Heliostat, Key, Solar power and Field. His studies deal with areas such as Numerical analysis, Pressure drop, Computational fluid dynamics and Particle deposition as well as Fluid dynamics. His Heat transfer enhancement research includes elements of Work, Heat flux and Poisson's equation.
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A critical review of the pseudopotential multiphase lattice Boltzmann model: Methods and applications
Li Chen;Li Chen;Qinjun Kang;Yutong Mu;Ya-Ling He.
International Journal of Heat and Mass Transfer (2014)
Lattice Boltzmann methods for multiphase flow and phase-change heat transfer
Qing Li;Qing Li;K. H. Luo;Q. J. Kang;Y. L. He.
Progress in Energy and Combustion Science (2016)
Fatty acids as phase change materials: A review
Yanping Yuan;Nan Zhang;Wenquan Tao;Xiaoling Cao.
Renewable & Sustainable Energy Reviews (2014)
A MCRT and FVM coupled simulation method for energy conversion process in parabolic trough solar collector
Ya-Ling He;Jie Xiao;Ze-Dong Cheng;Yu-Bing Tao.
Renewable Energy (2011)
A unified analysis on enhancing single phase convective heat transfer with field synergy principle
W.Q. Tao;Y.L. He;Q.W. Wang;Z.G. Qu.
International Journal of Heat and Mass Transfer (2002)
Three-dimensional numerical study of heat transfer characteristics in the receiver tube of parabolic trough solar collector
Z.D. Cheng;Y.L. He;J. Xiao;Y.B. Tao.
International Communications in Heat and Mass Transfer (2010)
Plasma-assisted conversion of CO2 in a dielectric barrier discharge reactor: understanding the effect of packing materials
Danhua Mei;Danhua Mei;Xinbo Zhu;Ya-Ling He;Joseph D Yan.
Plasma Sources Science and Technology (2014)
Experimental and numerical studies on melting phase change heat transfer in open-cell metallic foams filled with paraffin
W.Q. Li;Z.G. Qu;Y.L. He;W.Q. Tao.
Applied Thermal Engineering (2012)
Numerical study of laminar heat transfer and pressure drop characteristics in a water-cooled minichannel heat sink
X.L. Xie;Z.J. Liu;Y.L. He;W.Q. Tao.
Applied Thermal Engineering (2009)
Experimental study of a passive thermal management system for high-powered lithium ion batteries using porous metal foam saturated with phase change materials
W.Q. Li;Z.G. Qu;Y.L. He;Y.B. Tao.
Journal of Power Sources (2014)
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