SAFETY AND MAINTENANCE FOR INDUSTRIAL SYSTEMS
Course objectives
The course aims to provide the necessary knowledge to the design and management of safety and maintenance of industrial systems, considered as complex production systems.To this end, the course deals with the handling of hazardous phenomena that can occur in a productive activity, provides information on laws and existing good practice in this regard and introduces methodologies for systems analysis useful to anticipate and manage unexpected phenomena in the operation machinery, equipment and facilities.Particular emphasis is given to the services to guarantee the safety of any system, especially in view of some significant trends (facility management, global services and outsourcing).
Channel 1
LORENZO FEDELE
Lecturers' profile
Program - Frequency - Exams
Course program
I - SAFETY DESIGN AND MANAGEMENT
Normatives and standards
Industrial risks and setting of the project safety
Methods for risk analysis
Designing safety organization
The human factor
Safety management systems
II - MAINTENANCE DESIGN AND MANAGEMENT
Reliability of an industrial system
Reliability analysis of industrial systems
Design of maintenance
Maintenance management
Inspection of complex systems (technical, industrial, structural)
III - TEMPORARY YARDS
Design and management of the safety of a construction site.
Planning safety of a site.
Roles and responsibilities.
Safety costs.
Prerequisites
Mathematical and physical basis of the Engineering courses.
Books
L. Fedele, Progettare e Gestire la Sicurezza, McGraw Hill, 2008.
L. Fedele, L. Furlanetto, D. Saccardi, Progettare e Gestire la Manutenzione, McGraw Hill, 2004.
L. Fedele, Methodologies and Techniques for Advanced Maintenance, Springer, 2011.
R. Cigolini, A. Deshmukh, L. Fedele, S. McComb, Recent Advances in Maintenance and Infrastructure Management, Springer, 2009.
Teaching mode
Provision of face-to-face lessons and exercises, except for different health provisions.
Frequency
Attendance is not compulsory but nevertheless recommended, taking into account the operational contents of the course.
Exam mode
Students are asked to prepare a project in small groups on the issues of safety and maintenance of industrial plants.
In the project, students must demonstrate that they know how to set up either a risk analysis or a maintenance plan, or other technical report to be agreed upon.
Students must then pass a multiple choice written test.
The final grade of the exam derives from the arithmetic mean of the grade of the project and of the score of the written test.
Bibliography
R. Cigolini, A. Deshmukh, L. Fedele, S. McComb, Recent Advances in Maintenance and Infrastructure Management, Springer, 2009.
R. Cigolini, A. Deshmukh, L. Fedele, S. McComb, Recent Advances in Maintenance and Infrastructure Management, Springer, 2009.
M.Rausand, Risk assessment: theory, methods and applications, Wiley, 2011.
P.D.T. O'Connor, A.Kleyner, Practical reliability engineering, Wiley 2012.
INAIL, Manutenzione per la Sicurezza e Sicurezza della Manutenzione
Links:
- D.Lgs. 81/08, Ed. 01/2020 - Ispettorato del Lavoro
- Sicurezza sul lavoro. Il canale della prevenzione INAIL.
- Sicurezza lavoro. Ministero del Lavoro e delle Politiche Sociali.
- European Agency for Safety and Health at Work.
- Testo Unico sulla Sicurezza ed. 06/2016.
Lesson mode
Provision of face-to-face lessons and exercises, except for different health provisions.
LORENZO FEDELE
Lecturers' profile
Program - Frequency - Exams
Course program
I - SAFETY DESIGN AND MANAGEMENT
Normatives and standards
Industrial risks and setting of the project safety
Methods for risk analysis
Designing safety organization
The human factor
Safety management systems
II - MAINTENANCE DESIGN AND MANAGEMENT
Reliability of an industrial system
Reliability analysis of industrial systems
Design of maintenance
Maintenance management
Inspection of complex systems (technical, industrial, structural)
III - TEMPORARY YARDS
Design and management of the safety of a construction site.
Planning safety of a site.
Roles and responsibilities.
Safety costs.
Prerequisites
Mathematical and physical basis of the Engineering courses.
Books
L. Fedele, Progettare e Gestire la Sicurezza, McGraw Hill, 2008.
L. Fedele, L. Furlanetto, D. Saccardi, Progettare e Gestire la Manutenzione, McGraw Hill, 2004.
L. Fedele, Methodologies and Techniques for Advanced Maintenance, Springer, 2011.
R. Cigolini, A. Deshmukh, L. Fedele, S. McComb, Recent Advances in Maintenance and Infrastructure Management, Springer, 2009.
Teaching mode
Provision of face-to-face lessons and exercises, except for different health provisions.
Frequency
Attendance is not compulsory but nevertheless recommended, taking into account the operational contents of the course.
Exam mode
Students are asked to prepare a project in small groups on the issues of safety and maintenance of industrial plants.
In the project, students must demonstrate that they know how to set up either a risk analysis or a maintenance plan, or other technical report to be agreed upon.
Students must then pass a multiple choice written test.
The final grade of the exam derives from the arithmetic mean of the grade of the project and of the score of the written test.
Bibliography
R. Cigolini, A. Deshmukh, L. Fedele, S. McComb, Recent Advances in Maintenance and Infrastructure Management, Springer, 2009.
R. Cigolini, A. Deshmukh, L. Fedele, S. McComb, Recent Advances in Maintenance and Infrastructure Management, Springer, 2009.
M.Rausand, Risk assessment: theory, methods and applications, Wiley, 2011.
P.D.T. O'Connor, A.Kleyner, Practical reliability engineering, Wiley 2012.
INAIL, Manutenzione per la Sicurezza e Sicurezza della Manutenzione
Links:
- D.Lgs. 81/08, Ed. 01/2020 - Ispettorato del Lavoro
- Sicurezza sul lavoro. Il canale della prevenzione INAIL.
- Sicurezza lavoro. Ministero del Lavoro e delle Politiche Sociali.
- European Agency for Safety and Health at Work.
- Testo Unico sulla Sicurezza ed. 06/2016.
Lesson mode
Provision of face-to-face lessons and exercises, except for different health provisions.
- Lesson code1044963
- Academic year2025/2026
- CourseMechanical Engineering
- CurriculumProduzione industriale
- Year1st year
- Semester2nd semester
- SSDING-IND/17
- CFU6