He-Ping Tan mainly focuses on Optics, Radiative transfer, Heat transfer, Mechanics and Thermal radiation. His Radiative transfer research includes elements of Computational physics, Scattering, Boundary value problem, Opacity and Intensity. His research integrates issues of Inverse problem and Ray tracing in his study of Computational physics.
His Heat transfer research is multidisciplinary, incorporating elements of Thermal conduction and Porous medium. As a part of the same scientific study, He-Ping Tan usually deals with the Mechanics, concentrating on Numerical analysis and frequently concerns with Electrohydrodynamics, Steady state and Flow. His work carried out in the field of Thermal radiation brings together such families of science as Emissivity, Zigzag, Coupling, Electron density and Anisotropy.
He-Ping Tan focuses on Optics, Radiative transfer, Heat transfer, Scattering and Thermal radiation. He-Ping Tan regularly links together related areas like Boundary value problem in his Optics studies. His studies in Radiative transfer integrate themes in fields like Thermal conduction, Computational physics, Intensity and Opacity.
His Heat transfer study focuses on Mechanics and Thermodynamics. His Scattering research is multidisciplinary, relying on both Discretization, Transmittance and Stokes parameters. He interconnects Composite material and Emissivity in the investigation of issues within Thermal radiation.
His primary scientific interests are in Radiative transfer, Thermal, Thermal radiation, Mechanics and Optics. His Radiative transfer research is multidisciplinary, incorporating perspectives in Transmittance, Computational physics, Scattering, Extinction and Composite material. As part of the same scientific family, He-Ping Tan usually focuses on Thermal, concentrating on Solar energy and intersecting with Renewable energy.
His Thermal radiation research also works with subjects such as
He-Ping Tan mainly investigates Mechanics, Thermal, Thermal radiation, Char and Coal. His work on Rayleigh number, Prandtl number and Fluid dynamics as part of general Mechanics study is frequently linked to Charge density and Stefan number, therefore connecting diverse disciplines of science. His research investigates the link between Thermal and topics such as Combustor that cross with problems in Mass flow rate, Thermophotovoltaic, Common emitter, Energy conversion efficiency and Dimensionless quantity.
His research in Thermal radiation intersects with topics in Turbulence, Emissivity, Temperature control and Detector. His work investigates the relationship between Turbulence and topics such as Radiation that intersect with problems in Radiative transfer. His Radiative transfer research includes elements of Computational physics, Scattering, Geometrical optics, Refraction and Extinction.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Radiation performance of dish solar concentrator/cavity receiver systems
Yong Shuai;Xin-Lin Xia;He-Ping Tan.
Solar Energy (2008)
Thermal performance analysis of porous media receiver with concentrated solar irradiation
Fuqiang Wang;Yong Shuai;Heping Tan;Chunliang Yu.
International Journal of Heat and Mass Transfer (2013)
Inverse radiation analysis of a one-dimensional participating slab by stochastic particle swarm optimizer algorithm
H. Qi;L.M. Ruan;H.C. Zhang;Y.M. Wang.
International Journal of Thermal Sciences (2007)
Current technology development for CO2 utilization into solar fuels and chemicals: A review
Azeem Mustafa;Bachirou Guene Lougou;Yong Shuai;Zhijiang Wang.
Journal of Energy Chemistry (2020)
Thermal stress analysis of eccentric tube receiver using concentrated solar radiation
Fuqiang Wang;Yong Shuai;Yuan Yuan;Guo Yang.
Solar Energy (2010)
Application of multi-phase particle swarm optimization technique to inverse radiation problem
H. Qi;L.M. Ruan;M. Shi;W. An.
Journal of Quantitative Spectroscopy & Radiative Transfer (2008)
Three-dimensional temperature field measurement of flame using a single light field camera.
Jun Sun;Chuanlong Xu;Biao Zhang;Md. Moinul Hossain.
Optics Express (2016)
Mechanism of in-situ dynamic catalysis and selective deactivation of H2O-activated biochar for biomass tar reforming
Dongdong Feng;Yu Zhang;Yijun Zhao;Shaozeng Sun.
Thermal performance analyses of porous media solar receiver with different irradiative transfer models
Fuqiang Wang;Jianyu Tan;Shuai Yong;Heping Tan.
International Journal of Heat and Mass Transfer (2014)
Near-Field Radiative Heat Transfer between Black Phosphorus Sheets via Anisotropic Surface Plasmon Polaritons
Yong Zhang;Hong-Liang Yi;He-Ping Tan.
ACS Photonics (2018)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: