Tianshu Ge focuses on Desiccant, Air conditioning, Process engineering, Water cooling and Thermal energy. In his study, Rotation and Rotational speed is strongly linked to Simulation, which falls under the umbrella field of Desiccant. His biological study spans a wide range of topics, including Waste management, Photovoltaic thermal hybrid solar collector, Cooling tower, Active cooling and TRNSYS.
The various areas that Tianshu Ge examines in his Process engineering study include Solar powered and Absorption refrigerator. His Water cooling research is multidisciplinary, incorporating elements of Moisture, Refrigeration and Cooling capacity. His work focuses on many connections between Refrigeration and other disciplines, such as Fin, that overlap with his field of interest in Heat exchanger.
His primary areas of investigation include Desiccant, Heat exchanger, Process engineering, Air conditioning and Silica gel. His Desiccant study combines topics in areas such as Simulation, Vapor-compression refrigeration, Evaporative cooler and Water cooling. His Heat exchanger study integrates concerns from other disciplines, such as Moisture, Composite material, Humidity and Thermodynamic cycle.
His Process engineering research is multidisciplinary, incorporating perspectives in Chilled water, Thermal, Work and Absorption refrigerator. His work carried out in the field of Air conditioning brings together such families of science as Refrigeration, Heat recovery ventilation, Automotive engineering and Stage. His Silica gel research incorporates elements of Fiber, Composite number, Coating and Chemical engineering.
His primary areas of study are Chemical engineering, Desiccant, Heat exchanger, Process engineering and Composite number. In his study, Nanostructure and Thermal stability is inextricably linked to Amine gas treating, which falls within the broad field of Chemical engineering. Tianshu Ge regularly ties together related areas like Nuclear engineering in his Desiccant studies.
In Heat exchanger, Tianshu Ge works on issues like Composite material, which are connected to Microchannel. His Process engineering research incorporates themes from Work and Absorption refrigerator. His research integrates issues of Optoelectronics and Airflow in his study of Composite number.
His main research concerns Chemical engineering, Syngas, Redox, Hydrogen production and Chemical looping combustion. His Chemical engineering study integrates concerns from other disciplines, such as Composite number and Nonwoven fabric. Syngas is intertwined with Combined forced and natural convection, Environmental engineering, Natural convection, Raw material and Forced convection in his study.
In his papers, Tianshu Ge integrates diverse fields, such as Redox and Pyrolysis.
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D. La;Y.J. Dai;Y. Li;R.Z. Wang
X. Zheng;T.S. Ge;R.Z. Wang
Qiang Hu;Ye Shen;Jia Wei Chew;Tianshu Ge
T.S. Ge;Y. Li;R.Z. Wang;Y.J. Dai
R.Z. Wang;T.S. Ge;C.J. Chen;Q. Ma
T.S. Ge;R.Z. Wang;Z.Y. Xu;Q.W. Pan
T.S. Ge;Y.J. Dai;R.Z. Wang;Z.Z. Peng
Zhiyi Yao;Siming You;Tianshu Ge;Chi-Hwa Wang
T.S. Ge;F. Ziegler;R.Z. Wang
T.S. Ge;Y.J. Dai;R.Z. Wang;Y. Li
T.S. Ge;Y. Li;R.Z. Wang;Y.J. Dai
T.S. Ge;Y.J. Dai;R.Z. Wang
Y. D. Tu;R. Z. Wang;T. S. Ge;X. Zheng
Huanhuan Tong;Ye Shen;Jingxin Zhang;Chi-Hwa Wang
Dong La;Yanjun Dai;Yong Li;Tianshu Ge
T.S. Ge;Y.J. Dai;R.Z. Wang
X. Zheng;T.S. Ge;Y. Jiang;R.Z. Wang
Y. Zhao;T.S. Ge;Y.J. Dai;R.Z. Wang
Ursula Eicker;Dietrich Schneider;Jürgen Schumacher;Tianshu Ge;Tianshu Ge
X. Zheng;T.S. Ge;R.Z. Wang;L.M. Hu
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