Haisheng Chen mainly focuses on Nanofluid, Thermodynamics, Steam reforming, Hydrogen production and Rheology. The Nanofluid study combines topics in areas such as Thermal conductivity, Viscosity, Shear rate and Convective heat transfer. While the research belongs to areas of Shear rate, Haisheng Chen spends his time largely on the problem of Newtonian fluid, intersecting his research to questions surrounding Apparent viscosity, Shear and Relative viscosity.
His Thermodynamics study focuses on Heat transfer coefficient in particular. His Steam reforming study integrates concerns from other disciplines, such as Biodiesel and Glycerol. His Chemical looping combustion study deals with Coke intersecting with Process engineering.
Haisheng Chen spends much of his time researching Energy storage, Compressed air energy storage, Mechanics, Heat transfer and Thermodynamics. His study in Energy storage is interdisciplinary in nature, drawing from both Nuclear engineering, Heat exchanger, Process engineering and Thermal energy storage. His work investigates the relationship between Process engineering and topics such as Waste management that intersect with problems in Steam reforming.
His Compressed air energy storage research focuses on subjects like Gas compressor, which are linked to Storage tank. His research integrates issues of Thermal conductivity and Composite material in his study of Heat transfer. His Nanofluid study integrates concerns from other disciplines, such as Ethylene glycol and Rheology, Viscosity, Shear rate.
Compressed air energy storage, Mechanics, Energy storage, Thermal energy storage and Nuclear engineering are his primary areas of study. His Compressed air energy storage research incorporates elements of Turbine, Automotive engineering, Gas compressor, Exergy and Storage tank. His Exergy research is under the purview of Process engineering.
The Energy storage study combines topics in areas such as Waste management, Brayton cycle and Electric power. His Thermal energy storage research integrates issues from Jet and Particle temperature. The concepts of his Heat transfer study are interwoven with issues in Thermal, Thermal conductivity, Composite material and Evaporator.
His primary areas of study are Energy storage, Thermal energy storage, Mechanics, Compressed air energy storage and Thermal. His Energy storage research includes themes of Nuclear engineering, Exergy and Fuel efficiency. Haisheng Chen studied Exergy and Power that intersect with Process engineering.
His research integrates issues of Work, Scale, Heating system, Seasonal thermal energy storage and Renewable energy in his study of Thermal energy storage. He combines topics linked to Gas compressor with his work on Compressed air energy storage. His biological study deals with issues like Thermal conductivity, which deal with fields such as Heat transfer, Nickel, Metal and Aluminium.
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Progress in electrical energy storage system: A critical review
Haisheng Chen;Haisheng Chen;Thang Ngoc Cong;Wei Yang;Chunqing Tan.
Progress in Natural Science (2009)
A benchmark study on the thermal conductivity of nanofluids
Jacopo Buongiorno;David C. Venerus;Naveen Prabhat;Thomas McKrell.
Journal of Applied Physics (2009)
Heat transfer and flow behaviour of aqueous suspensions of TiO2 nanoparticles (nanofluids) flowing upward through a vertical pipe
Yurong He;Yi Jin;Haisheng Chen;Yulong Ding.
International Journal of Heat and Mass Transfer (2007)
Rheological behaviour of nanofluids
Haisheng Chen;Haisheng Chen;Yulong Ding;Chunqing Tan.
New Journal of Physics (2007)
Rheological behaviour of ethylene glycol based titania nanofluids
Haisheng Chen;Haisheng Chen;Yulong Ding;Yurong He;Chunqing Tan.
Chemical Physics Letters (2007)
Heat transfer and flow behaviour of aqueous suspensions of titanate nanotubes (nanofluids)
Haisheng Chen;Haisheng Chen;Wei Yang;Yurong He;Yulong Ding.
Powder Technology (2008)
Predicting thermal conductivity of liquid suspensions of nanoparticles (nanofluids) based on rheology
Haisheng Chen;Haisheng Chen;Sanjeeva Witharana;Yi Jin;Yi Jin;Chongyoup Kim.
Heat Transfer Intensification Using Nanofluids
Yulong Ding;Haisheng Chen;Haisheng Chen;Liang Wang;Liang Wang;Chane Yuan Yang.
Kona Powder and Particle Journal (2007)
Hydrogen production from catalytic steam reforming of biodiesel byproduct glycerol: Issues and challenges
Binlin Dou;Yongchen Song;Chao Wang;Haisheng Chen.
Renewable & Sustainable Energy Reviews (2014)
Hydrogen production by sorption-enhanced steam reforming of glycerol
Binlin Dou;Valerie Dupont;Gavin Rickett;Neil Blakeman.
Bioresource Technology (2009)
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