STAGNI, ALESSANDRO
STAGNI, ALESSANDRO
DIPARTIMENTO DI CHIMICA, MATERIALI E INGEGNERIA CHIMICA "GIULIO NATTA"
A Fully Coupled Approach for Predicting Pollutants Formation through Reactor Network Analysis
2013-01-01 Stagni, Alessandro; Cuoci, Alberto; Frassoldati, Alessio; Faravelli, Tiziano; Ranzi, ELISEO MARIA
A fully coupled, parallel approach for the post-processing of CFD data through reactor network analysis
2014-01-01 Stagni, Alessandro; Cuoci, Alberto; Frassoldati, Alessio; Faravelli, Tiziano; Ranzi, ELISEO MARIA
A generalized partially stirred reactor model for turbulent closure
2023-01-01 Quadarella, E.; Pequin, A.; Stagni, A.; Parente, A.; Faravelli, T.; Im, H. G.
A kinetic study of the oscillating combustion of hydrogen and syngas in well-stirred reactors
2017-01-01 De Capitani, Fabio; Stagni, Alessandro; Pelucchi, Matteo; De Joannon, Mariarosaria; Sabia, Pino; Lubrano Lavadera, Marco; Faravelli, Tiziano
A partially stirred reactor model for turbulent combustion closure using detailed chemical time scales
2018-01-01 Quadarella, E.; Stagni, A.; Cuoci, A.; Parente, A.; Faravelli, T.; Im, H. G.
Adaptive chemistry via pre-partitioning of composition space and mechanism reduction
2020-01-01 D'Alessio, G.; Parente, A.; Stagni, A.; Cuoci, A.
Addressing the complexity of combustion kinetics: Data management and automatic model validation
2019-01-01 Pelucchi, M.; Stagni, A.; Faravelli, T.
Ammonia-methane interaction in jet-stirred and flow reactors: An experimental and kinetic modeling study
2021-01-01 Arunthanayothin, S.; Stagni, A.; Song, Y.; Herbinet, O.; Faravelli, T.; Battin-Leclerc, F.
An evolutionary, data-driven approach for mechanism optimization: theory and application to ammonia combustion
2021-01-01 Bertolino, A.; Furst, M.; Stagni, A.; Frassoldati, A.; Pelucchi, M.; Cavallotti, C.; Faravelli, T.; Parente, A.
An experimental and kinetic modeling study of NH3 oxidation in a Jet Stirred Reactor
2019-01-01 Stagni, Alessandro; Song, Y.; Herbinet, Olivier; Battin-Leclerc, Fréderique; Faravelli, Tiziano
An experimental, theoretical and kinetic-modeling study of hydrogen sulfide pyrolysis and oxidation
2022-01-01 Stagni, Alessandro; Arunthanayothin, Suphaporn; PRATALI MAFFEI, Luna; Herbinet, Olivier; Battin-Leclerc, Fr??d??rique; Faravelli, Tiziano
An experimental, theoretical and kinetic-modeling study of the gas-phase oxidation of ammonia
2020-01-01 Stagni, A.; Cavallotti, C.; Arunthanayothin, S.; Song, Y.; Herbinet, O.; Battin-Leclerc, F.; Faravelli, T.
Autoignition of condensed hydrocarbon fuels in non-premixed flows at elevated pressures
2016-01-01 Mairinger, Gerald; Frassoldati, Alessio; Gehmlich, Ryan; Niemann, Ulrich; Stagni, Alessandro; Ranzi, ELISEO MARIA; Seshadri, Kalyanasundaram
Automated Kinetic Mechanism Evaluation for e-Fuels Using SciExpeM: The Case of Oxymethylene Ethers
2023-01-01 Dinelli, Timoteo; Pratali Maffei, Luna; Pegurri, Alessandro; Puri, Amedeo; Stagni, Alessandro; Faravelli, Tiziano
Automatic validation and analysis of predictive models by means of big data and data science
2023-01-01 Ramalli, E.; Dinelli, T.; Nobili, A.; Stagni, A.; Pernici, B.; Faravelli, T.
Carrier-phase DNS of detailed NOx formation in early-stage pulverized coal combustion with fuel-bound nitrogen
2021-01-01 Shamooni, A.; Debiagi, P.; Wang, B.; Luu, T. D.; Stein, O. T.; Kronenburg, A.; Bagheri, G.; Stagni, A.; Frassoldati, A.; Faravelli, T.; Kempf, A. M.; Wen, X.; Hasse, C.
Catalytic partial oxidation of n-octane and iso-octane: Experimental and modeling results
2017-01-01 Carrera, Andrea; Pelucchi, Matteo; Stagni, Alessandro; Beretta, Alessandra; Groppi, Gianpiero
Chemistry effects in the wall quenching of laminar premixed DME flames
2021-01-01 Stagni, A.; Luo, Y.; Steinhausen, M.; Dreizler, A.; Hasse, C.
Chemistry of nitrogen oxides (NOx) formation in flameless combustion
2022-01-01 Stagni, Alessandro; Frassoldati, Alessio; Pelucchi, Matteo; Faravelli, Tiziano
Classification and lift-off height prediction of non-premixed MILD and autoignitive flames
2017-01-01 Evans, M. J.; Medwell, P. R.; Wu, H.; Stagni, A.; Ihme, M.