CODICE 101134 ANNO ACCADEMICO 2022/2023 CFU 9 cfu anno 2 MARITIME SCIENCE AND TECHNOLOGY 10948 (L-28) - GENOVA SETTORE SCIENTIFICO DISCIPLINARE ING-IND/02 LINGUA Inglese SEDE GENOVA PERIODO 2° Semestre MATERIALE DIDATTICO AULAWEB PRESENTAZIONE This course at the second year of the Marine Engineering curriculum covers some of the competencies concerned with IMO Model Course Chief Engineer and Second Officer, Function 1, 2 and 3. The course also covers some of the requirements Electro-Technical Officer Function 1, 2 and 3. The course is elective for the Deck Officer curriculum. OBIETTIVI E CONTENUTI OBIETTIVI FORMATIVI Design principles of ship propulsion plants, ship auxiliary plants and ship safety plants. Manage fuel, lubrication and ballast operations. Pumps and piping operation and maintenance. Manage safe and effective maintenance. Planning maintenance. Safety procedures. Life saving appliances. Fire fighting. Fire detection. Fire prevention OBIETTIVI FORMATIVI (DETTAGLIO) E RISULTATI DI APPRENDIMENTO The aim of the lecture is to provide in-depth knowledge of the subjects included in IMO MODEL COURSE Chief Engineer and Second Officer, as well as Italian Law for Master and Chief Engineer CoC and competencies for the Electro-Technical Officer (ref. IMO STCW Section A-III/6). In particular, the following competencies for Chief Engineer and Second Officer are addressed: Competence 1.1 : Manage the Operation of Propulsion Plant Machinery 1.1.5 DESIGN FEATURES AND OPERATIVE MECHANISM OF PROPELLER SHAFT AND ASSOCIATED ANCILLARIES Competence 1.2 Plan and schedule operations 1.2.6 PHYSICAL AND CHEMICAL PROPERTIES OF FUELS AND LUBRICANTS Competence 1.3 : Operation, Surveillance, Performance Assessment and Maintaining Safety of Propulsion Plant and Auxiliary Machinery Competence 1.4 : Manage fuel, lubrication and ballast operations The course also covers the following competencies for the Electro-Technical Officer: Competence 1.1 Monitor the operation of electrical, electronic, and control systems: 1.1.1 BASIC UNDERSTANDING OF THE OPERATION OF MECHANICAL ENGINEERING SYSTEMS .1 Prime Movers, Including Main Propulsion Plant .2 Engine Room Auxiliary .3 Machinery Steering Systems .4 Cargo Handling Systems .5 Deck Machinery .6 Hotel Systems Competence 3.1 Pollution prevention Competence 3.2 Prevent, control and fight fire on board The lecture is elective for the Deck Officer curriculum. LEARNING OUTCOMES Demonstrates knowledge and understanding of: DESIGN FEATURES AND OPERATIVE MECHANISM OF PROPULSION SYSTEM AUXILIARIES DESIGN FEATURES AND OPERATIVE MECHANISM OF PROPELLER SHAFT AND ASSOCIATED ANCILLARIES DESIGN FEATURES AND OPERATIVE MECHANISM OF SHIP SYSTEM AUXILIARIES START UP AND SHUT DOWN MAIN AND AUXILIARY MACHINERY, EFFICIENT OPERATION, PERFORMANCE ASSESSMENT OPERATION AND MAINTENANCE OF MACHINERY, INCLUDING PUMPS AND PUMPING SYSTEM MAINTAINING SAFETY OF PROPULSION PLANT AND AUXILIARY MACHINERY RISK ANALYSIS AND ITS USE IN MARITIME OPERATIONS MODALITA' DIDATTICHE Aula. Webinars. Visit onboard. Individual Project. Group Project. Working students and students with certified SLD (Specific Learning Disorders), disability or other special educational needs are advised to contact the teacher at the beginning of the course to agree on teaching and examination arrangements so to take into account individual learning patterns, while respecting the teaching objectives. PROGRAMMA/CONTENUTO Bernoulli equation and its application to marine systems. Main machinery and associated systems: Engine lubrication, Fuel injection, Scavenging and supercharging, Starting and reversing, Cooling systems, Diesel engine control. Air compressors and compressed air systems. Hydraulic power system Steering gear system Pumps and piping operation and maintenance. Bilge and ballast Prevention of pollution of the sea by oil Sewage and sludge SAFETY SYSTEMS Life saving appliances. Fire fighting. Fire detection. Fire prevention. Reliability, Availability, Maintainability, Safety. Definitions and applications. RISK ANALYSIS concepts. Learning from marine accidents. FMEA/FMECA methods. TESTI/BIBLIOGRAFIA Lecture notes provided on Aulaweb. MARINE ENGINEERING, PUBLISHED BY THE SOCIETY OF NAVAL ARCHITECTS AND MARINE ENGINEERS, 1992 DOCENTI E COMMISSIONI MASSIMO FIGARI Ricevimento: Ricevimento studenti: Friday 4 pm - 5 pm Office n. 322, Villa Cambiaso buildings. It is good practice to manage an appointment by email or during lectures. massimo.figari@unige.it REZA KARIMPOUR Commissione d'esame MASSIMO FIGARI (Presidente) MICHELE MARTELLI RAPHAEL ZACCONE SILVIA DONNARUMMA (Presidente Supplente) LEZIONI INIZIO LEZIONI https://corsi.unige.it/10948/p/studenti-orario Orari delle lezioni L'orario di questo insegnamento è consultabile all'indirizzo: Portale EasyAcademy ESAMI MODALITA' D'ESAME The exam consists of two parts: written and oral. The written part consists of problem-solving activity. The oral part consists of questions regarding theoretical aspects. The written exam is a prerequisite to participate in the oral exam. If the student doesn't pass the written part, the student cannot take the oral part. MODALITA' DI ACCERTAMENTO The assessment is based on: exam results (80%) projects (20%). Projects are evaluated from 0 to max 6 points. The exam (written + oral) is evaluated from 18 to max 27 points. The final mark is the sum of exam results and project results. The maximum score available is 30 points cum laude. Calendario appelli Data appello Orario Luogo Tipologia Note 24/01/2023 09:00 GENOVA Scritto + Orale 08/02/2023 09:00 GENOVA Scritto + Orale 09/06/2023 09:00 GENOVA Scritto + Orale 28/07/2023 09:00 GENOVA Scritto + Orale 01/09/2023 09:00 GENOVA Scritto + Orale