2026 Gui-Hua Tang: Engineering and Technology Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Engineering and Technology	50	4162	4001	832	828	177	7764

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Engineering and Technology

4162

4001

832

828

177

7764

Engineering and Technology

D-Index

Citations

7764

World Ranking

4162

National Ranking

832

Overview

Gui-Hua Tang is affiliated with Xi'an Jiaotong University in China and has an extensive publication record primarily in the fields of Engineering and Materials Science. Their work spans subfields including Materials Chemistry, Mechanical Engineering, Computational Mechanics, Spectroscopy, and Electrical and Electronic Engineering.

The scientist's research covers a range of topics with notable focus areas such as:

Aerogels and thermal insulation
Surface Modification and Superhydrophobicity
Advanced Thermoelectric Materials and Devices
Thermal Radiation and Cooling Technologies
Crystallization and Solubility Studies
X-ray Diffraction in Crystallography
Heat transfer and supercritical fluids

Gui-Hua Tang has published recent papers including:

"A performance recovery coefficient for thermal-hydraulic evaluation of recuperator in supercritical carbon dioxide Brayton cycle," 2022, Energy Conversion and Management
"Experimental study of the anisotropic thermal conductivity of 2D carbon-fiber/epoxy woven composites," 2021, Composite Structures
"Carbon layer encapsulation strategy for designing multifunctional core-shell nanorod aerogels as high-temperature thermal superinsulators," 2022, Chemical Engineering Journal
"General and unique issues at multiple scales for supercritical carbon dioxide power system: A review on recent advances," 2022, Energy Conversion and Management
"Passive all-day freshwater harvesting through a transparent radiative cooling film," 2022, Applied Energy

The frequent coauthors collaborating with Gui-Hua Tang include Mu Du, Xiaolong Li, Qiang Sheng, Yuanhong Fan, and Hu Zhang.

The scientist's work often appears in publication venues such as:

The Cambridge Structural Database
Applied Thermal Engineering
Energy
International Journal of Heat and Mass Transfer
SSRN Electronic Journal

Best Publications

Electroosmotic flow of non-Newtonian fluid in microchannels

G.H. Tang;X.F. Li;Y.L. He;W.Q. Tao

258
Citations
Gas slippage effect on microscale porous flow using the lattice Boltzmann method

G. H. Tang;W. Q. Tao;Y. L. He

242
Citations
Lattice Boltzmann method for gaseous microflows using kinetic theory boundary conditions

G. H. Tang;W. Q. Tao;Y. L. He

233
Citations
Experimental and numerical studies of liquid flow and heat transfer in microtubes

Zhuo Li;Ya-Ling He;Gui-Hua Tang;Wen-Quan Tao

211
Citations
Thermal transport in nano-porous insulation of aerogel: Factors, models and outlook

G.H. Tang;C. Bi;Y. Zhao;W.Q. Tao

195
Citations
Lattice Boltzmann modeling of microchannel flows in the transition flow regime

Q. Li;Y. L. He;G. H. Tang;W. Q. Tao

187
Citations
Experimental study of compressibility, roughness and rarefaction influences on microchannel flow

G.H. Tang;Zhuo Li;Y.L. He;W.Q. Tao

181
Citations
Heat transfer enhancement in mini-channel heat sinks with dimples and cylindrical grooves

C. Bi;G.H. Tang;W.Q. Tao

180
Citations
Thermal boundary condition for the thermal lattice Boltzmann equation

G H Tang;W Q Tao;Y L He

155
Citations
Improved axisymmetric lattice Boltzmann scheme.

Q Li;Y L He;G H Tang;W Q Tao

147
Citations
Coupling model for heat transfer between solid and gas phases in aerogel and experimental investigation

C. Bi;G.H. Tang;Z.J. Hu;H.L. Yang

140
Citations
Plasmonic nanofluids based on gold nanorods/nanoellipsoids/nanosheets for solar energy harvesting

M. Du;G.H. Tang

139
Citations
Effective thermal conductivity of the solid backbone of aerogel

C. Bi;G.H. Tang

124
Citations
LATTICE BOLTZMANN METHOD FOR SIMULATING GAS FLOW IN MICROCHANNELS

G. H. Tang;W. Q. Tao;Y. L. He

121
Citations
Optical property of nanofluids with particle agglomeration

M. Du;G.H. Tang

112
Citations
Experimental investigation of condensation heat transfer on hybrid wettability finned tube with large amount of noncondensable gas

H.W. Hu;G.H. Tang;D. Niu

107
Citations
Film condensation heat transfer on a horizontal tube in presence of a noncondensable gas

G.H. Tang;H.W. Hu;Z.N. Zhuang;W.Q. Tao

107
Citations
Parametric study and field synergy principle analysis of H-type finned tube bank with 10 rows

Yu Jin;Gui-Hua Tang;Ya-Ling He;Wen-Quan Tao

105
Citations
Investigation of coalescence-induced droplet jumping on superhydrophobic surfaces and liquid condensate adhesion on slit and plain fins

Y. Shi;G.H. Tang;H.H. Xia

100
Citations
Numerical study of natural convection in porous media (metals) using Lattice Boltzmann Method (LBM)

Chang-Ying Zhao;Chang-Ying Zhao;L. N. Dai;G. H. Tang;Z. G. Qu

100
Citations
The effect of surface wettability on water vapor condensation in nanoscale

D. Niu;G. H. Tang

94
Citations