Followed and led the construction and the commissioning phase of a big plant in Noceto (PR) aiming at disposing old weapons and ammunitions by means of controlled combustions in dedicated furnaces Managed Italian and foreign suppliers. Daily dealt with the final customer Technical design and economic feasibility analysis of a heat recovery system in the aforementioned plant, aiming at the enhancing of its global efficiency Technical design and economic analysis of the heating network downstream of a cogeneraration power plant with a maximum power of 400 MW. The design concerned the system downstream of the turbine condenser, including piping, back-up station, pumping stations and heating exchangers Drawing of the flow sheet, calculation of the pressures, temperatures, mass flow rates and enthalpies along the significant sections of the circuit Cost estimates
Coordonnées
michele.braglia@univ-amu.fr
Techniques maîtrisées
Sound and wide background related to the design and planning of industrial plants especially those oriented to power generation and energy production such as cogeneration power plants, combined cycles, turbo-gas, steam cycles and power production from renewable energies. Strong theoretical and practical experience concerning pollutants abatement in industrial plants. Feasibility studies and financial reports.
Doctorat
Intitulé : PHYSIQUE & SCIENCES DE LA MATIERE - Spécialité : MATIERE CONDENSEE et NANOSCIENCES
1ère inscription en thèse :
Janvier 2015
École doctorale :
Physique et Sciences de la Matière
Date de soutenance de la thèse :
19 Décembre 2017
Sujet :
Polymérisation électrochimique de membranes pour microdispositifs de stockage et conversion de l'énergie
Directeur de thèse :
Philippe KNAUTH
Co-directeur :
Unité de recherche :
MADIREL - Matériaux Divisés, Interfaces, Réactivité, Electrochimie
Intitulé de l'équipe :
Master
Intitulé : Engineering
Mars 2013 - Università di Bologna
Langues vivantes
Anglais : B2 - Intermédiaire supérieur
Français : B2 - Intermédiaire supérieur
Italien : C2 - Maternel
Production scientifique
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Anodic Electropolymerization of Sulfonated Poly(phenyl ether): Study of Precursor Isomers and Polymer Growth
ChemistrySelect
2016
M. Braglia , I. V. Ferrari , Dr. F. Vacandio , Prof. P. Knauth and Prof. M. L. Di Vona
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New aromatic polymer electrolytes for application in lithium metal batteries
New J. Chem
2016
Vincent Morizur,a Michele Braglia,bc Sandra Olivero,a Jean-Roger Desmurs,d Philippe Knauth*bc and Elisabet Duñach*a
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Electrochemically engineered single Li-ion conducting solid polymer
electrolyte on titania nanotubes for microbatteries
Journal of Power Sources
2017
I.V. Ferrari, M. Braglia, T. Djenizian, P. Knauth, M.L. Di Vona
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Bottom-up electrochemical deposition of poly(styrene
sulfonate) on nano-architectured electrodes
ACS Applied Materials and Interfaces
2017
Michele Braglia, Ivan Vito Ferrari, Thierry Djenizian, Saulius Kaciulis,
Peiman Soltani, Maria Luisa Di Vona, and Philippe C Knauth