His scientific interests lie mostly in Thermodynamics, Polymer, Solubility, Membrane and Chromatography. The concepts of his Thermodynamics study are interwoven with issues in Anomalous diffusion, Penetrant and Sorption. As a part of the same scientific family, he mostly works in the field of Polymer, focusing on Swelling and, on occasion, Kinetics, Glassy matrix and Stress.
Giulio Cesare Sarti interconnects Amorphous solid, Thermal diffusivity, Dilution and Polycarbonate in the investigation of issues within Solubility. His Membrane study incorporates themes from Mass transfer, Volumetric flow rate, Hydrogen and Aqueous solution. His biological study spans a wide range of topics, including Semipermeable membrane and Langmuir adsorption model.
His primary areas of investigation include Membrane, Polymer, Solubility, Sorption and Thermodynamics. His Membrane research integrates issues from Analytical chemistry, Chromatography, Adsorption and Diffusion. His study looks at the relationship between Polymer and fields such as Thermal diffusivity, as well as how they intersect with chemical problems.
His Solubility study which covers Fugacity that intersects with Methane. His research in Sorption focuses on subjects like Polymer chemistry, which are connected to Copolymer and Alkane. Thermodynamics and Kinetics are frequently intertwined in his study.
His primary areas of study are Polymer, Membrane, Solubility, Thermodynamics and Sorption. His work carried out in the field of Polymer brings together such families of science as Thermal diffusivity, Volume and Permeation. His studies deal with areas such as Downstream processing, Chromatography and Polyimide as well as Membrane.
The study incorporates disciplines such as Gas separation and Polymer chemistry in addition to Solubility. His Sorption research includes themes of BET theory, Polymer science, Dissolution, Fugacity and Methane. The various areas that Giulio Cesare Sarti examines in his Penetrant study include Swelling, Non-equilibrium thermodynamics and Dilution.
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Nonequilibrium Lattice Fluids: A Predictive Model for the Solubility in Glassy Polymers
Ferruccio Doghieri;Giulio C. Sarti.
Separation efficiency in vacuum membrane distillation
S. Bandini;C. Gostoli;G.C. Sarti.
Journal of Membrane Science (1992)
A class of mathematical models for sorption of swelling solvents in glassy polymers
G. Astaluta;G. C. Sarti.
Polymer Engineering and Science (1978)
Vacuum membrane distillation: Experiments and modeling
Serena Bandini;Aldo Saavedra;Giulio Cesare Sarti.
Aiche Journal (1997)
Extraction of organic components from aqueous streams by vacuum membrane distillation
G.C. Sarti;C. Gostoli;S. Bandini.
Journal of Membrane Science (1993)
Pure and mixed gas CH4 and n-C4H10 permeability and diffusivity in poly(dimethylsiloxane)
Roy D. Raharjo;Benny D. Freeman;Donald R. Paul;Giulio C. Sarti.
Journal of Membrane Science (2007)
Low energy cost desalination processes using hydrophobic membranes
G.C. Sarti;C. Gostoli;S. Matulli.
Separation of liquid mixtures by membrane distillation
C. Gostoli;G.C. Sarti.
Journal of Membrane Science (1989)
Predictions of the solubility of gases in glassy polymers based on the NELF model
Giulio C. Sarti;Ferruccio Doghieri.
Chemical Engineering Science (1998)
Non-Fickian Diffusion of Water In Nafion
Daniel T. Hallinan;Maria Grazia De Angelis;Marco Giacinti Baschetti;Giulio C. Sarti.
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