His primary areas of study are Fluidization, Fluidized bed combustion, Mechanics, Fluidized bed and Flow. His work carried out in the field of Fluidization brings together such families of science as Economies of agglomeration, Particle density, Composite material and Two-phase flow. His work deals with themes such as Fiber optic sensor, Pressure sensor, Environmental engineering and Analytical chemistry, which intersect with Fluidized bed combustion.
The Mechanics study combines topics in areas such as Mixing and Mineralogy. His Fluidized bed study combines topics in areas such as Turbulence, Biofuel and Bioreactor. The Flow study combines topics in areas such as Characterization, Stress, Dynamic testing, Optical fiber and Particle size.
His main research concerns Mechanics, Fluidized bed combustion, Fluidized bed, Fluidization and Flow. The study of Mechanics is intertwined with the study of Phase in a number of ways. He usually deals with Fluidized bed combustion and limits it to topics linked to Circulation and Gas velocity.
Jesse Zhu combines subjects such as Chromatography, Bioreactor, Coal, Chemical engineering and Gas solid with his study of Fluidized bed. His Fluidization study is concerned with the field of Thermodynamics as a whole. Jesse Zhu performs multidisciplinary study in the fields of Flow and Flux via his papers.
Jesse Zhu mainly investigates Mechanics, Fluidization, Fluidized bed, Chemical engineering and Flow. Jesse Zhu interconnects Fluidized bed combustion and Inverse in the investigation of issues within Mechanics. His work carried out in the field of Fluidized bed combustion brings together such families of science as Downer, Particle velocity, Circulation and Bioreactor.
The subject of his Fluidization research is within the realm of Thermodynamics. His Fluidized bed study integrates concerns from other disciplines, such as Residence time, Beneficiation and Coal. His Flow research includes themes of Drag, Volumetric flow rate, Work and Particle flow.
Jesse Zhu mainly focuses on Fluidization, Mechanics, Fluidized bed, Phase and Flow. His Fluidization study combines topics from a wide range of disciplines, such as Work, Nanoparticle, Gas holdup and Specific surface area, Catalysis. His Mechanics study incorporates themes from Radius and Particle aggregation.
The various areas that he examines in his Fluidized bed study include Magnetite, Beneficiation, Coal, Anoxic waters and Chemical engineering. His Flow research incorporates elements of Drag and Fluidized bed combustion. His Fluidized bed combustion study is related to the wider topic of Waste management.
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An experimental study on biomass air-steam gasification in a fluidized bed.
P.M Lv;Z.H Xiong;J Chang;C.Z Wu.
Bioresource Technology (2004)
Magnetic nanoparticles for environmental and biomedical applications: A review
Leena Mohammed;Hassan G. Gomaa;Doaa Ragab;Jesse Zhu.
Hydrodynamics of gas-solid fluidization
K.S Lim;J.X Zhu;J.R Grace.
International Journal of Multiphase Flow (1995)
Cocurrent downflow circulating fluidized bed (downer) reactors — A state of the art review
J.-X. Zhu;Z.-Q. Yu;Y. Jin;J. R. Grace.
Canadian Journal of Chemical Engineering (1995)
Characterization of powder flow: Static and dynamic testing
Matthew Krantz;Hui Zhang;Jesse Zhu.
Powder Technology (2009)
A novel calibration procedure for a fiber optic solids concentration probe
H. Zhang;P.M. Johnston;J.-X. Zhu;H.I. de Lasa.
Powder Technology (1998)
Suspension densities in a high-density circulating fluidized bed riser
A.S. Issangya;D. Bai;H.T. Bi;K.S. Lim.
Chemical Engineering Science (1999)
Measurements of voidage profiles in spouted beds
Y.-L. He;C. J. Lim;J. R. Grace;J.-X. Zhu.
Canadian Journal of Chemical Engineering (1994)
Dry powder platform for pulmonary drug delivery
Derek Ivan Daniher;Jesse Zhu.
Characterizing particle aggregates in a high-density and high-flux CFB riser
S.V Manyele;J.H Pärssinen;J.-X Zhu.
Chemical Engineering Journal (2002)
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