1. [I]nfo
  2. [M]oduli
  3. [B]acheca
  4. [P]rogramma
  5. [O]rari
  6. [E]sami
  7. E[v]enti
  8. [F]iles

Generali:

  • Dipartimento: Ingegneria
  • Settore Ministeriale: ING-IND/10
  • Codice di verbalizzazione: 8037439
  • Metodi di insegnamento: Frontale
  • Metodi di valutazione: Scritto E Orale
  • Prerequisiti: Knowledge of the main notions of chemistry and physics for engineers and of classical thermodynamics.
  • Obiettivi: Course objectives: Acquisition of interdisciplinary and intersectoral methodologies and knowledge for the definition and evaluation, in relation to environmental and technological aspects, of strategies relating to the sustainable use of energy resources. 1. Environment and circular economy, circular economy and thermodynamics, thermodynamics and environment: structural links and criticalities. General considerations on the interdisciplinarity and saturation that characterize the energy problem; the Italian "school" of Energetics. 2. Correlations between macroeconomic indicators. Energy productivity. Elements that influence the consumption of usable energy sources and foreseeable future incidence. Analysis of the international context, consequences on human development and the environment. Interpretations and perspectives. 3. The greatness exergy. The theorem of variation of exergy. Irreversibility and destruction of exergy. Exergetic efficiency and energy quality factors. Application examples and design criteria. 4. Raw materials, exergy and irreversibility: an environmental perspective. The main ecological problems from the global to the local scale. Green strategies for the territory in the technological and productive subsystems of reference, from primary to quaternary. 5. Centralized production and distributed production. The energy carriers. Historical overview of the perspectives of the hydrogen vector. 6. Engineering of processes and interactions between energy and environment: application examples in civil and industrial fields. Energy, environmental and economic optimization criteria. 7. The scenario of non-renewable sources. The role of renewable sources. Security and reliability of supplies and transformations. 8. Nuclear energy: basic concepts of atomic and nuclear physics and of dosimetry and radiation protection, principles of nuclear fission and fusion processes and the fuel cycle, components, main characteristics and construction aspects of nuclear fission and fusion plants, aspects technical and economic aspects of nuclear waste management and decommissioning.
  • Ricevimento: Da concordare liberamente con gli studenti, in base alle loro necessita'.

Didattica:

  • A.A.: 2021/2022
  • Canale: UNICO
  • Crediti: 6
  • Obbligo di Frequenza: No

Classe virtuale:

  • Nome classe: AMENDOLA-8037439-ENERGETICA_AMBIENTALE_E_SOSTENIBILITA'
  • Link Microsoft Teams: Link
  • Docente: AMENDOLA GIUSEPPE MARIA
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