CODE 86660 ACADEMIC YEAR 2019/2020 CREDITS 6 cfu anno 2 ENERGY ENGINEERING 10170 (LM-30) - SAVONA SCIENTIFIC DISCIPLINARY SECTOR ING-IND/09 LANGUAGE English TEACHING LOCATION SAVONA SEMESTER 1° Semester MODULES Questo insegnamento è un modulo di: MACHINES AND SYSTEMS FOR RENEWABLE ENERGY TEACHING MATERIALS AULAWEB OVERVIEW This course (completely in English) shows the fundamental know-how of fuel cells and distributed generation systems (thermodynamics and component performance): different typologies, layouts, technological and environmental aspects. Different small size systems are considered for distributed generation applications. Special attention is devoted to combined heat and power generation including laboratory experiences. AIMS AND CONTENT LEARNING OUTCOMES The purpose of this course is to provide the students with the fundamental know-how related to fuel cells and to the concept of distributed generation systems. The attention is mainly focused on thermodynamic theory and component performance. Fuel cells are presented putting emphasis on different technology types, hybrid system plant layouts, technological and environmental aspects. This course also proposes to provide students with basic knowledge and operative elements to design different small size systems (internal combustion engines, microturbines, stirling engines, fuel cells) for applications in distributed generation grids. For this part of the course, special attention is devoted to combined heat and power generation providing students with laboratory experiences. AIMS AND LEARNING OUTCOMES The attendance and active participation at the proposed teaching activities (lessons and exercises) and the individual study will allow the student to: - know the basic aspects related to different fuel cell types (performance and operative issues); - know the characteristics of hybrid systems (plant solutions, performance, etc.); - know the aspects related to hydrogen as energy vector; - understand the distributed generation systems; - apply the thermodynamic concepts to the performance calculations; - identify and analyse the main plant components. TEACHING METHODS The course is composed of: 54 hours including classroom lessons, exercises and laboratory visits. The exercise hours will be carried out by the teacher with the following approach: summary introduction on the contents related to the classroom lessons and development of exercises. 1/2 seminars will be included considering external teachers (also from abroad). SYLLABUS/CONTENT Fuel cells (basic structure, brief history, technological status, cost considerations); fuel cell types (polymeric, alkaline, phosphoric acid, molten carbonate, solid oxide); fuel cell electrochemistry (ideal and losses). Fuel cells: influence of main operative properties (pressure and temperature), materials, performance, fuel processing (external and internal reforming). Hybrid systems with high temperature fuel cells (MCFC; SOFC). Hydrogen generation, storage and utilization. Distributed generation systems: basic aspects, microturbines and stirling engines. Distributed generation systems: co-generation and tri-generation. RECOMMENDED READING/BIBLIOGRAPHY All the slides used during the lessons and other teaching materials will be available on aul@web. In general, lesson notes and the aul@web teaching materials are enough for the exam preparation. The following books are suggested as support: Fuel Cell Handbook (Seventh Edition), US Department of Energy, Morgantown, WV (USA), 2004 (available on line). Ferrari M.L., Damo U.M., Turan A., Sanchez D., Hybrid Systems Based on Solid Oxide Fuel Cells: Modelling and Design, Wiley, July 2017 (available in the library). R. Della Volpe, “Macchine”, Liguori Editore (available in the library). TEACHERS AND EXAM BOARD MARIO LUIGI FERRARI Ricevimento: To fix office hours for topic review or for asking information please send an e-mail to mario.ferrari@unige.it. In case of requests related to an exam, it is necessary to contact the teacher at least 4 days before. Exam Board MARIO LUIGI FERRARI (President) PIETRO ZUNINO (President) DARIO BARSI LOREDANA MAGISTRI ANDREA PERRONE LUCA RATTO ALESSANDRO SORCE ALBERTO TRAVERSO ALBERTO NICOLA TRAVERSO LESSONS LESSONS START The first week of the first semester. Class schedule FUEL CELLS AND DISTRIBUTED GENERATION SYSTEMS EXAMS EXAM DESCRIPTION The exam is composed of an oral test on all the topics presented and discussed during the course (exercises excluded). 2/3 exam days will be available in the winter session and 3/4 for the summer session (verify on the web tool https://servizionline.unige.it/studenti/esami/prenotazione). No additional exam days will be carried out, except for the students that terminated their lessons for the undergraduate course. So, these students can contact the teacher by e-mail (mario.ferrari@unige.it) to fix a possible exceptional exam day. To participate at this oral test, it is necessary to do the registration (at least 2 days in advance) on the web tool https://servizionline.unige.it/studenti/esami/prenotazione. ASSESSMENT METHODS The exam will be carried out with oral questions that can be supported by writing (on the blackboard or a paper sheet). The details on the exam preparation and on the analysis of each topic will be provided during the lessons. The exam will evaluate not only the student's knowledge, but also the analysis capability of problems on fuel cell based systems and distributed generation and the presentation with a right terminology. The student can be asked to design plant schemes, to analyse the system behaviour on the main thermodynamic planes, and to carry out design calculation in agreement with what presented during the lessons. Exam schedule Data appello Orario Luogo Degree type Note 30/01/2020 09:30 SAVONA Orale 27/02/2020 09:30 SAVONA Orale 16/06/2020 09:30 SAVONA Orale 13/07/2020 09:30 SAVONA Orale 04/09/2020 09:30 SAVONA Orale FURTHER INFORMATION No further info.
