Archivio Istituzionale della RicercaThe current paper describes experimental and modeling research for a series of nontraditional particulate fuel/air systems: nanomaterials, fiocculent materials and hybrid mixtures. At the time of writing, experimentation is at the following stages: (i) nanomaterials - completed with data analysis performed, (ii) fiocculent materials - completed with data analysis performed, and (iii) hybrid mixtures - underway (about 70 % completed) with data analysis in the early stages. Modeling work is also underway and includes phenomenological, thermokinetic and computational fluid dynamics (CFD) considerations.
Explosibility of non-traditional dusts: Experimental and modelling challenges / Amyotte, P.; Boilard, S.; Iarossi, Ivan; Cloney, C.; Khan, F.; Marmo, Luca; Ripley, R.; Dastidar, A.; Eckhoff, R.. - STAMPA. - Institution of Chemical Engineers Symposium Series:(2012), pp. 83-90. (Intervento presentato al convegno Hazards XXIII tenutosi a Southport; United Kingdom nel 12-15 Novembre 2012).
Explosibility of non-traditional dusts: Experimental and modelling challenges
IAROSSI, IVAN;MARMO, LUCA;
2012
Abstract
The current paper describes experimental and modeling research for a series of nontraditional particulate fuel/air systems: nanomaterials, fiocculent materials and hybrid mixtures. At the time of writing, experimentation is at the following stages: (i) nanomaterials - completed with data analysis performed, (ii) fiocculent materials - completed with data analysis performed, and (iii) hybrid mixtures - underway (about 70 % completed) with data analysis in the early stages. Modeling work is also underway and includes phenomenological, thermokinetic and computational fluid dynamics (CFD) considerations.
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https://hdl.handle.net/11583/2504435
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