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With the support of:. DG EAC - EC. FIPSE - US. IMES Master in Bioenergia ed Ambiente (Master on Bioenergy and Environment). Tipologia di combustibile. Usi finali . Conversione. Pretrattamento. Perché un Master in Bioenergia ed Ambiente ?. Biomassa e Bioenergia
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With the support of: DG EAC - EC FIPSE - US IMESMaster in Bioenergia ed Ambiente(Master on Bioenergyand Environment)
Tipologia di combustibile Usi finali Conversione Pretrattamento Perché un Master in Bioenergia ed Ambiente ? • Biomassa e Bioenergia • Tipico problema di filiera • Elevata interdisciplinarietà: conoscenze di svariati aspetti tecnico-scientifici
Hot Air Thermal Inversion Cold Air Perché un Master in Bioenergia ed Ambiente ? • Emissioni in atmosfera • Gas Serra • Inquinanti locali e qualità dell’aria • Ambiente • Corretta impostazione e gestione ambientale dell’intera filiera produzione-trasformazione per il successo di un progetto • Stretta relazione tra Energia Rinnovabile ed Ambiente Notevole complessità Programma Formativo ad hoc
Master Internazionale • Università degli Studi di Firenze (coord) • Aston University • Universidade Nova de Lisboa • Master CONGIUNTO :
Master Internazionale • Baylor University • Arizona State University • Embry Riddle Aeronautical University Collaborazione e scambi con Università USA
Master di Ateneo - Comitato Ordinatore • Francesco Martelli– Dip.di Energetica “S.Stecco” (Coord.) • Iacopo Bernetti– Dip. di Economia Agraria e delle Risorse Territoriali • Piero Baglioni– Dip.di Chimica • Guido Chelazzi– Dip.di Biologia Animale e Genetica “Leo Pardi” • Guido Ferrari– Dip.di Statistica “Giuseppe Parenti” • Stefano Grassi– Dip.di Diritto Pubblico
A chi è destinato? Nuovo Ordinamento (DM 509/99) • Classe delle lauree in Ingegneria industriale • Classe delle lauree in Ingegneria civile ed ambientale • Classe delle lauree in Scienze e tecnologie fisiche • Classe delle lauree in Scienze e tecnologie chimiche • Classe delle lauree in Scienze biologiche • Classe delle lauree in Scienze e tecnologie agrarie, agroalimentari e forestali • Classe delle lauree in Scienze e tecnologie per l’ambiente e la natura • Classe delle lauree in Urbanistica e scienze della pianificazione territoriale e ambientale • Classe delle lauree in Scienze economiche • Classe delle lauree in Scienze dell’economia e della gestione aziendale • Elenco Prerequisiti Vecchio Ordinamento • Ingegneria meccanica • Ingegneria civile • Ingegneria per l’ambiente e il territorio • Scienze e Tecnologie Agrarie • Scienze Forestali e Ambientali • Fisica • Scienze naturali • Architettura • Pianificazione territoriale, urbanistica ed ambientale • Economia e Commercio
Contenuti • Topic 1 – Biomass production • Topic 2 – Biomass Conversion Technologies • Topic 3 – Power generation and system analysis • Topic 4 – Liquid biofuel utilisation, chemicals and hydrogen • Topic 5 – Environment • Topic 6 – Business management and economy I Topics sono divisi in Modules
Topic 1 – Biomass Production 1.1 Production of forest and herbaceous biomass. Differentiation in terms of main geographic and climatic areas 1.2 Forest biomass production. Short rotation forestry (SRF) and forest residues 1.3 Energy crops. Agricultural residues and their valorization 1.4 Main techniques for cultivation, mechanization of biomass production, harvesting and pre-treatment 1.5 Energetic and environmental balances of biomass production 1.6 Waste production 1.7 Evaluation of land use potential (GIS – Geographic Information Systems)
Topic 2 – Biomass Conversion Technologies 2.1 Energy and Environment: Introduction, world – EU, national energy balances, basics on energy systems, fuels, environmental impact (global scale) from energy production, renewable energy sources (RES) 2.2 Power and/or heat generation plants and thermodynamic cycles 2.3 Renewable Energy Technologies (RETs) 2.4 Biomass energy conversion technologies (thermal): combustion 2.5 Biomass energy conversion technologies (thermal): gasification 2.6 Biomass energy conversion technologies (thermal): pyrolysis 2.7 Biomass energy conversion technologies (biological): fermentation, anaerobic digestion
Topic 3 – Power generation and system analysis 3.1 Power plant technologies 3.2 System analysis and Interfacing Production and Conversion 3.3 Integrated bioenergy systems
Topic 4 – Liquid biofuel utilisation, Chemicals and Hydrogen 4.1 Chemical and physical characteristics of the various fuels (fossil and renewable, solid-liquid-gaseous) and bio-chemicals 4.2 Liquid biofuels for transports: use and upgrading 4.3 Norms and standards in biofuels 4.4 Hydrogen production from biomass and renewables (solid biofuels) 4.5 Hydrogen production from biomass and renewables (liquid biofuels)
Topic 5 - Environment 5.1 General ecology: basics (basic concepts, conditions and resources, ecology niche, individuals-populations-communities) 5.2 General ecology: applications (environmental alteration, environmental contamination, pollution, biomonitoring, bioindicators, biomarkers) 5.3 General ecology: methods (sampling techniques and measurements of environmental parameters, estimation of the effects, experimental design of environmental impact)
Topic 5 - Environment 5.4 Special part: air pollution (types and classes of pollutants, monitoring techniques, sanitary impact) 5.5 Environmental physics 5.6 Environmental chemistry 5.7 Environmental Impact Assessment: methodologies for the evaluation, impact from large scale / small scale bioenergy systems 5.8 Mathematics and statistics in air quality, modelling 5.9 Waste audit 5.10 Environmental Management Systems (EMS): ISO14000, EMAS
Topic 6 – Business management and economy 6.1 Economy of energy sources at world and EU level 6.2 Basics on economy, principles of economic and financial analysis of projects 6.3 The project: project analysis and definition, business plan, risk analysis etc. 6.4 Evaluation of projects and programmes 6.5 Environmental legislation: introduction 6.6 Law on pollutant emissions and air quality 6.7 Air pollution and energy production
Tempi & stage USA • Durata del Master: 18 mesi • 6 mesi di lavoro di tesi – stage • 5 borse di studio per stage USA • Tempi • Domande: Novembre-Dicembre 2003 • Colloquio: Gennaio 2004 • Inizio corsi: Marzo 2004 • Discussione tesi: Set.-Ott.2005 http://www.de.unifi.it/formazione.ita.htm
Collaborazioni • Il progetto IMES è in partnership con • Agenzia Fiorentina per l’Energia - AFE • European Biomass Industry Association - EUBIA • Attive collaborazioni con imprese e società nel settore della biomassa. Tra queste: • Kemyx • EMCO • Fibranova … ed altre … E.M.CO • L’Università stimola ulteriori collaborazioni con operatori del settore Il lavoro di tesi sarà preferibilmente inserito in questo contesto
