CODE 73245 ACADEMIC YEAR 2026/2027 CREDITS 5 cfu anno 2 INGEGNERIA CHIMICA E DI PROCESSO 11919 (LM-22 R) - GENOVA SCIENTIFIC DISCIPLINARY SECTOR ING-IND/19 TEACHING LOCATION GENOVA SEMESTER 2° Semester OVERVIEW The course, starting from nuclear engineering fundamentals, presents an overview of all the modern nuclear technology developments. AIMS AND CONTENT LEARNING OUTCOMES The course has the aim to deepen the knowledge on to the nuclear fission and fusion applications. Particularly the course contributes to achieve the awareness of the nuclear technology applications in the energy field. AIMS AND LEARNING OUTCOMES The course aims to provide knowledge relating to the use of nuclear energy obtained through both fusion and fission, starting from the nuclear engineering fundamentals and arriving at the description of the state of the art in the nuclear plant engineering field. The course contributes to the achievement of the training objectives regarding the energy uses of nuclear technology. PREREQUISITES Fundamentals of applied thermodynamics, heat transfer and industrial plants. TEACHING METHODS Lectures and practical exercises developed in classroom. Students with a certified learning disability (DSA), a disability, or other special educational needs are invited to contact the instructor at the beginning of the lessons to discuss teaching and examination arrangements that, while respecting the learning objectives of the course, take individual learning needs into account and provide appropriate accommodations. Please also note that requests for exam accommodations or exemptions must be submitted using the form available at this link https://modulionline.unige.it/richiesta-adattamenti#no-back, to the teaching professor, the SCUOLA contact person (federico.scarpa@unige.it), and the relevant office (inclusione.studenti@info.unige.it) at least seven working days before the examination, in accordance with the guidelines available at this link: https://unige.it/disabilita-dsa/richiesta-servizi SYLLABUS/CONTENT Recalls on nuclear physics. Elements of thermal-hydraulic and neutronic core balances of nuclear fission reactors. Essential components and operating principles of thermal and fast nuclear reactors. Description of the main nuclear reactors families. Nuclear fission reactors classification. Nuclear fuel cycle. Light water reactors (LWR): “classical” PWR and BWR; Generation III/III+ reactors (EPR, AP-1000, ABWR, etc.). Heavy water reactors (CANDU). High temperature reactors (HTR). Generation-IV. General aspects of fast reactors. Sodium Fast Reactors (SFR), Lead Fast Reactors (LFR) and Gas Fast Reactors (GFR). Nuclear spent fuel and waste treatment. Hints on sub-critical reactors (ADS). Energy scenarios. Hints on the nuclear installations decommissioning. Additional issues on Nuclear Fusion reactors: instabilities, toroidal configurations (Tokamak, Stellarator); the blanket and the related neutronics, heat transfer and tritium generation; materials activation. RECOMMENDED READING/BIBLIOGRAPHY Materials supplied by the lecturer and/or available on Aulaweb website. TEACHERS AND EXAM BOARD GUGLIELMO LOMONACO Ricevimento: By appointment: guglielmo.lomonaco@unige.it LESSONS Class schedule The timetable for this course is available here: Portale EasyAcademy EXAMS EXAM DESCRIPTION Oral examinations. Students with a certified learning disability (DSA), a disability, or other special educational needs are invited to contact the instructor at the beginning of the lessons to discuss teaching and examination arrangements that, while respecting the learning objectives of the course, take individual learning needs into account and provide appropriate accommodations. Please also note that requests for exam accommodations or exemptions must be submitted using the form available at this link https://modulionline.unige.it/richiesta-adattamenti#no-back, to the teaching professor, the SCUOLA contact person (federico.scarpa@unige.it), and the relevant office (inclusione.studenti@info.unige.it) at least seven working days before the examination, in accordance with the guidelines available at this link: https://unige.it/disabilita-dsa/richiesta-servizi ASSESSMENT METHODS The assessment of the content of the course is carried out mainly during the final exam and consists of an oral examination, which is structured in the discussion of several subjects of the course. Agenda 2030 - Sustainable Development Goals Quality education Affordable and clean energy Climate action