Basic knowledge about the nuclear plants, materials, algebra, mechanics, science and construction technique, QA and safety, and the ability to interpret overall drawings and details.

The course is one of the most interdisciplinary one proposed and consists of lectures (with visual aids such as powerpoints/videos, etc.), exercises and numerical applications (e.g. by using computers in the IT classroom or students’ personal computers, etc.) integrated in the classroom together and correlated with theoretical notions presented. The teaching activity, in relation to the level of preparation reached by the students, can be completed by the autonomous development under the guidance of the teacher, of a simple project in which the concepts acquired will be applied. The course can also be integrated with lectures and seminars of external teachers and experts.

The subdivision of the total working hours foreseen offers the student the possibility to verify and improve his own learning ability also through a synergic interaction between the student and the teacher (e.g. meetings, email or other methods of communication)

Delivery: face to face

Learning activities: attending lectures; participation in seminar and in discussions; individual study and laboratory work

Attendance: Advised

Teaching methods: Lectures; Seminar; Task-based learning/problem-based learning/inquiry-based learning laboratory

The course aims to provide the knoweledge and the methodological basis useful to study the complex industrial plants, intended as system and sub-system strongly connected together, whose correct operation may be relevant not only for the operation of the plant but also for the safety of workers and environment.

The contents/main notions deal with:

• Industrial Plants: types of industrial plants in the energy sectors, classification criteria and general equipment
• Criteria and general issues for the design and construction of an industrial complex plant;
• Siting aspects (environmental-plants interaction and design against the external events);
• Plants and SSCs structural integrity;
• Design load criteria & Classification of Load combinations (wind, fire actions, Eqke and aircraft, etc.)
• Basis and approach for Seismic Design of NPP: dynamic responses of SDOF & MDOF
• Seismic classifications & requirements to determine the dynamic response
• Soil categories e local site influence
• Steel and reinforced concrete structures (materials, process, factors affecting the strength, mechanical behavior bar-concrete and the failure mechanism);
• Engineering practically solutions and numerical methods/tools.
• Introduction to foundations: types and design load, design principles and criteria of verification
• Application case will be discussed and analysed by applying numerical codes

The reccommended reading includes:

• A. Monte, "Elements of Industrial Plants" Ed. Libreria Cortina Torino
• L. Santarella, “Handbook of Reinforced Concrete” , 2010, Hoepli Ed.
• EUROCODE and other National and International Guidelines (i.e. NTC2018, ASME, ACI, etc.)
• Teaching materials distributed during the course
• Further bibliography indicated during lessons

The teaching material, yearly updated will be provided to students by email or making it available on shared folder 

The receipt of the students is always available to support students in solving any possible encountered learning problem

The oral examination, as described above, consists in an oral exam that includes assignment of typical problems and development of one or more exercises related to the theory and a preliminary dimensioning of a component and part of plants.

For exams, contact rosa.lofrano@ing.unipi.it