Studying at DICEAM

4 curricula: Civil, Transport Infrastructure, Environment, Civil Engineering (in English)

The Bachelor's degree program in Environmental and Civil Engineering for Sustainable Development encompasses a curriculum offered in English that focuses on all the typical disciplines of civil engineering.

WHAT YOU WILL LEARN:
The first year, through the study of the basic scientific disciplines of engineering, allows students to deepen their knowledge of the methodological and operational aspects of mathematics, geometry, physics, and chemistry. Beginning in the second year, courses will focus on general knowledge of the subjects characterizing the sciences of Civil and Environmental Engineering, which will be appropriately integrated into the third year with the choice of one of the available curricula. The balance between theoretical training and technical preparation will allow bachelor's degree graduates to acquire a broad range of knowledge in all the most important aspects of this field of study. Students can independently select their own elective courses from among those offered, even if they are taught in a language other than that of the chosen curriculum.

WHAT YOU CAN DO NEXT:
Design, management, and maintenance of buildings, structures, transportation and hydraulic infrastructures; soil conservation, protection from natural hazards and pollution; land monitoring; energy networks and systems in civil and industrial settings; environmental control and monitoring systems; and the raw materials and resources required for energy efficiency and rational use. Safety and prevention monitoring and control in large infrastructure projects and construction sites.

The course prepares for the profession of (ISTAT codes):
- Civil construction technicians and similar professions - (3.1.3.5.0)
- Water and other fluid network operation technicians - (3.1.4.2.2)
- Construction site management technicians - (3.1.5.2.0)
- Railway traffic organization technicians - (3.1.6.4.0)

2 curricula: Production plants, Vehicles

WHAT YOU'LL LEARN:
In the Mechanical Engineering program, you'll learn the fundamentals of designing, developing, building, and analyzing mechanical systems. You'll begin with fundamental disciplines such as Mathematical Analysis, Geometry, Physics, and Chemistry, then delve into specific mechanical engineering subjects such as Solid Mechanics, Industrial Energy, and Applied Mechanics. The program will culminate with training activities focused on machine construction, plant design, and mechanical systems, preparing you to design, analyze, and manage complex production processes and products.

WHAT YOU CAN DO NEXT:
As a mechanical engineer, you'll be a key player in technological and industrial advancement, with career opportunities in a wide range of sectors, including automotive, aerospace, energy, manufacturing, and rail. You'll have the skills to design, develop, and improve mechanical systems, making significant contributions to modern technology and its applications.

The course prepares for the profession of (ISTAT codes):
- Mechanical engineers (2.2.1.1.1)
- Mechanical technicians - (3.1.3.1.0)
- Technical designers (3.1.3.7.1)
- Workplace safety technicians (3.1.8.2.0)

2 curricula: Business Processes, Sustainable Energy

WHAT YOU'LL LEARN:
The Management Engineering program integrates engineering skills with economic and managerial knowledge, aiming to train professionals capable of managing and optimizing production, logistics, and organizational processes. You'll acquire a holistic view of business and industrial systems and develop the skills to address and solve the complex challenges of the modern world with innovative and sustainable solutions.

WHAT YOU CAN DO NEXT:
As a management engineer, you can take on leadership roles in various organizational settings, promoting innovation and sustainability. Your training will enable you to manage projects, resources, and people, opening doors in fields as diverse as manufacturing, logistics, business consulting, quality management, and marketing strategies.

The course prepares for the profession of (ISTAT codes):
Production factor organization and management technicians - (3.3.1.5.0.)
Financial management technicians - (3.3.2.1.0.)
Manufacturing production technicians - (3.1.5.3.0.)
Thermal and electrical energy production technicians - (3.1.4.2.1.)
Energy saving and renewable energy technicians - (3.1.3.6.0.)

CIVIL ENGINEERING (LM23)

WHAT YOU WILL LEARN:
The program trains professionals who, while all characterized by a strong and solid background in the core disciplines of civil engineering, each possess a high degree of specialization that allows them to work in the fields of hydraulic and maritime works, geotechnical works, structures, infrastructure, and transportation systems.
The resulting professional profile is that of a professional with interdisciplinary knowledge and a strong role in coordination and responsibility from the design phase to the execution and management phases of large and complex engineering projects.

WHAT YOU CAN DO AFTER:
A graduate is an engineer specialized in the design and construction of large civil structures and infrastructure, including in seismic zones. They carry out public and private civil works and strategic infrastructure such as roads, railways, airports, ports, dams, bridges, and tunnels. They oversee all phases of a project's life cycle, from design to execution, from renovation to ordinary and extraordinary maintenance. Civil engineers possess interdisciplinary training that encompasses multiple sectors and, in addition to freelance work, opens up a variety of career opportunities within businesses, private companies, agencies, and public administrations.

ENGINEERING FOR SUSTAINABLE ENVIRONMENTAL AND ENERGY MANAGEMENT (LM30/35)

WHAT YOU'LL LEARN:
The interclass course allows all students to gain high-level technical preparation in the areas of protection from anthropogenic risks, the circular economy, and environmental, industrial, and energy systems. Students can then choose to delve deeper into environmental protection engineering and hydrogeological risk mitigation, as well as sustainable energy production and the management of complex energy systems.

WHAT YOU CAN DO NEXT:
Design engineer for civil structures and industrial processes for environmental and land protection (disposal plants, landfills, waste treatment processes, protection from hydrogeological risks, product life cycles). Energy engineer for the design and management of energy systems from traditional and renewable sources (design and management of smart grids, energy communities, cogeneration systems, biorefining, circular economy).

PhD

Civil, Environmental and Industrial Engineering

The Doctoral Program aims to train young researchers with a solid methodological and technical-scientific foundation who are competitive in their fields (geotechnical, hydraulic, structural, transportation, health and environmental, chemical process, materials, and energy engineering) globally. The
program's objective is to train highly specialized professionals capable of addressing complex research and applied issues.
The educational objectives are aimed at advancing knowledge of: - basic sciences, technologies, and complex systems serving the civil, environmental, and industrial engineering sectors; - the design, management, control, safety, and monitoring of civil and industrial infrastructures and structures that interact with the environment and the landscape; - engineering aspects related to the production of energy from renewable sources, new advanced materials, and the management and valorization of civil and industrial waste in a circular economy context.

Students attending the various undergraduate and graduate programs can take advantage of 17 advanced research and teaching laboratories and work under the guidance of internationally renowned professors, whose significant work is evidenced by numerous scientific publications and significant research funding (over 14 million euros in research projects have been funded in the last three years alone).

Visit the PhD page