Alessio Frassoldati mainly focuses on Combustion, Kinetic scheme, Work, Organic chemistry and Pyrolysis. His studies in Combustion integrate themes in fields like Hydrogen and Hydrocarbon. His Hydrocarbon research includes elements of Dimethyl ether, Xylene, Benzene, Ethylbenzene and Laminar flame speed.
His biological study spans a wide range of topics, including Extinction, Octane and Methane. Alessio Frassoldati merges many fields, such as Organic chemistry and Chemical kinetics, in his writings. His Pyrolysis study combines topics in areas such as Chemical reaction, Partial oxidation, Range, Mineralogy and Lignin.
His primary areas of investigation include Combustion, Pyrolysis, Organic chemistry, Work and Computational fluid dynamics. Alessio Frassoldati studies Soot which is a part of Combustion. His Soot research focuses on subjects like Laminar flow, which are linked to Dilution.
His Pyrolysis study incorporates themes from Scientific method, Tar and Hydrocarbon. His research in Hydrocarbon intersects with topics in Photochemistry, Radical, Benzene and Jet fuel. Alessio Frassoldati focuses mostly in the field of Computational fluid dynamics, narrowing it down to matters related to Turbulence and, in some cases, Combustor and Fluid dynamics.
His main research concerns Combustion, Chemical engineering, Pyrolysis, Evaporation and Ignition system. In his papers, he integrates diverse fields, such as Combustion and Anisole. His research investigates the connection between Chemical engineering and topics such as Biofuel that intersect with issues in Alkyl, Redox, Branching, Ethanol and Mole fraction.
As a part of the same scientific family, Alessio Frassoldati mostly works in the field of Pyrolysis, focusing on Scientific method and, on occasion, Vanillin and Computational chemistry. His Evaporation study incorporates themes from Work, Buoyancy, Convection and Vaporization. His Work study combines topics in areas such as Limiting oxygen concentration and Range.
Alessio Frassoldati spends much of his time researching Combustion, Soot, Work, Buoyancy and Pyrolysis. His work in Combustion tackles topics such as Chemical engineering which are related to areas like Gasoline and Heptane. His work carried out in the field of Soot brings together such families of science as Laminar flow and Adiabatic flame temperature.
His research integrates issues of Char, Coal, Limiting oxygen concentration and Ignition system in his study of Work. His Buoyancy study also includes
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Hierarchical and comparative kinetic modeling of laminar flame speeds of hydrocarbon and oxygenated fuels
E. Ranzi;A. Frassoldati;R. Grana;A. Cuoci.
Progress in Energy and Combustion Science (2012)
Chemical Kinetics of Biomass Pyrolysis
Eliseo Ranzi;Alberto Cuoci;Tiziano Faravelli;Alessio Frassoldati.
Energy & Fuels (2008)
Reduced Kinetic Schemes of Complex Reaction Systems: Fossil and Biomass‐Derived Transportation Fuels
Eliseo Maria Ranzi;Alessio Frassoldati;Alessandro Stagni;Matteo Pelucchi.
International Journal of Chemical Kinetics (2014)
Wide-Range Kinetic Modeling Study of the Pyrolysis, Partial Oxidation, and Combustion of Heavy n-Alkanes
Eliseo Ranzi;Alessio Frassoldati;Silvia Granata;Tiziano Faravelli.
Industrial & Engineering Chemistry Research (2005)
Detailed kinetic modeling of the thermal degradation of lignins
T. Faravelli;A. Frassoldati;G. Migliavacca;E. Ranzi.
Biomass & Bioenergy (2010)
OpenSMOKE++: An object-oriented framework for the numerical modeling of reactive systems with detailed kinetic mechanisms ☆
Alberto Cuoci;Alessio Frassoldati;Tiziano Faravelli;Eliseo Maria Ranzi.
Computer Physics Communications (2015)
An experimental and kinetic modeling study of combustion of isomers of butanol
Roberto Grana;Alessio Frassoldati;Tiziano Faravelli;Ulrich Niemann.
Combustion and Flame (2010)
Experimental and kinetic modeling study of combustion of JP-8, its surrogates and reference components in laminar nonpremixed flows
S. Humer;Alessio Frassoldati;Silvia Granata;Tiziano Faravelli.
31st International Symposium on Combustion (2007)
Kinetic modeling of the interactions between NO and hydrocarbons in the oxidation of hydrocarbons at low temperatures
Tiziano Faravelli;Alessio Frassoldati;Eliseo Maria Ranzi.
Combustion and Flame (2003)
The ignition, combustion and flame structure of carbon monoxide/hydrogen mixtures. Note 1: Detailed kinetic modeling of syngas combustion also in presence of nitrogen compounds
A. Frassoldati;T. Faravelli;E. Ranzi.
International Journal of Hydrogen Energy (2007)
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