Optional group:
IDRAULICA Orientamento unico AFFINI INTEGRATIVE - (show)
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12
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20801616 -
APPLIED GEOLOGY
(objectives)
IT PRESENTS AN OVERVIEW OF EARTH SCIENCES, ILLUSTRATING THE BASIC CONCEPTS OF GEOLOGY: THE FORM, MATERIALS, INTERNAL DYNAMICS, GEOLOGICAL CYCLES. IT PROVIDES THE BASIC TOOLS FOR READING AND INTERPRETATION OF GEOLOGICAL MAPS AT DIFFERENT SCALES. IT PROVIDES THE SKILLS NECESSARY TO INTERPRET THE GEOLOGICAL SURVEY. IT PROVIDES INFORMATION RELATING TO NATURAL HAZARDS, NATURAL RESOURCES AND ENVIRONMENTAL IMPACT
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Derived from
20801616 GEOLOGIA APPLICATA in Ingegneria civile L-7 N0 MAZZA ROBERTO
( syllabus)
The course program includes the presentation and discussion of the following topics: Introduction to Geology: the uniqueness of planet Earth; aspects of geology, the Earth's crust - the processes affecting the surface (the model of the Earth's relief, the sedimentary processes, sedimentary rocks), the body of the Earth - the internal process (the interior of the Earth, the earthquakes, volcanic phenomena, igneous rocks, metamorphic rocks; lithogenetic cycle, plate tectonics) deformation of the crust (lithological succession, the deformation of rocks, the geometry of geological bodies ). The "craft" of the geologist: the geological survey (preliminary research, materials and methods, analysis and interpretation of geological maps, reading and interpretation of thematic maps), the geological-technical survey (principal physical and mechanical properties of earth and rocks, the geological exploration of subsoil). Engineering Geology: Slope instabilities; hydrogeology; study of the geological context related to planning issues (the geological hazard); first intervention on the territory; redevelopment (urban geology.)
( reference books)
JOHN P. GROTZINGER, THOMAS H. JORDAN – Capire la Terra – Edizione italiana a cura di Elvidio Lupia Palmieri e Maurizio Parotto – Zanichelli, Bologna LAURA SCESI, MONICA PAPINI, PAOLA GATTINONI – Principi di Geologia applicata – Casa Editrice Ambrosiana, Milano VARIOUS MATERIAL PROVIDED BY THE TEACHER
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6
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GEO/05
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54
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20801617 -
MATERIALS FOR CIVIL ENGINEERING
(objectives)
THE AIM OF THE CLASS IS TO ACQUIRE THE KNOWLEDGE OF THE MATERIALS USED IN CIVIL ENGINEERING, TO PERFORM TESTS ON MATERIALS AND TO COMPREHEND THE ENVIRONMENTAL IMPACT FROM THEIR USE.
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Derived from
20801617 MATERIALI PER L'INGEGNERIA CIVILE in Ingegneria civile L-7 N0 LANZARA GIULIA
( syllabus)
Introduction to Material Science and Technologies, snap-shots of continuum mechanics, Atomic bonds, Dislocations, Mechanical behavior of materials, Fracture, Materials for Civil Engineering (metals, polymers, concrete, composites, wood), Standards, An overview of new materials for Civil Engineering and of the new frontiers (intelligent materials, self-healing materials, nanocomposites etc.), Laboratory experience (Multifunctional Materials Laboratory)
( reference books)
lectures given during the course
W.D. Callister, Scienza e Ingegneria dei Materiali
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6
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ING-IND/22
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54
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-
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-
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20801621 -
ENVIRONMENTAL HEALTH ENGINEERING
(objectives)
The main scope of the course is to provide students with the basic knowledge of environmental engineering. The course belongs to the three-year degree in Civil Engineering, whose aim is to prepare students in civil engineering by providing tools for the design, construction, maintenance and management of civil structures and infrastructures, such as buildings, bridges, tunnels, transport systems, hydraulic works and land protection. Road Materials is also a course of the master degrees in Road Infrastructures and Transport and Civil Engineering for Protection from Natural Risks, whose objective is training a highly professional figure in civil engineering with specific knowledge and skills in road infrastructures design and management and transportation issues and protection from hydrogeological and seismic risks, respectively. Within such framework, the course aims at providing students with the basic knowledge and understanding about 1) the biotic and abiotic environment, with references to ecology, chemistry and biology principles; 2) the reference environmental legislation; 3) water, atmosphere and soil quality parameters; 4) the processes of diffusion of pollutants in the environment; 5) treatment techniques. Upon successful completion of the course, students will be able to 1) evaluate the quality parameters of water, atmosphere and soil in relation to the current legislation 2) analyze the different engineering techniques of water, atmosphere and soil treatment in function of the type of pollutant; 3) basic knowledge of the integrated management of urban solid waste.
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Derived from
20801621 INGEGNERIA SANITARIA-AMBIENTALE in Ingegneria civile L-7 N0 FIORI ALDO
( syllabus)
Chemestry and biology principles • Ecology • Water environment: water quality, water pollution, potabilization plants, waste water, waste water treatments. • Air pollution: pollutants and system for emission treatment • Solid waste: integrated waste management system, waste characteristics, collection systems, recovery operations, reuse and recycling, final disposal in a controlled landfill. • Reclamation of contaminated sites • Reference national laws (D.Lgs. 152/2006)
( reference books)
Ingegneria sanitaria-ambientale, Carlo Collivignarelli, Giorgio Bertanza, Città studi edizioni, 2012
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6
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ICAR/03
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54
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-
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-
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-
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ITA |
20801641 -
PUBLIC WORKS' LEGISLATION AND LAW
(objectives)
THE COURSE AIMS TO PROVIDE STUDENTS WITH BASIC KNOWLEDGE REGARDING THE MANAGEMENT OF PUBLIC WORKS IN THE FIELD OF CIVIL ENGINEERING. PARTICULAR REFERENCES WILL BE DONE TO THE CURRENT REGULATIONS, THE ADMINISTRATIVE PROCEDURES, AND CONCEPTUAL AND METHODOLOGICAL ASPECTS FROM WHICH THE RELATED TECHNICAL ACTIVITIES DERIVE.
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20801641-2 -
DIRITTO DEI LAVORI PUBBLICI
(objectives)
FORMATIVE AIMS THE COURSE AIMS TO PROVIDE STUDENTS WITH BASIC KNOWLEDGE REGARDING THE MANAGEMENT OF PUBLIC WORKS IN THE FIELD OF CIVIL ENGINEERING. PARTICULAR REFERENCES WILL BE DONE TO THE CURRENT REGULATIONS, THE ADMINISTRATIVE PROCEDURES, AND CONCEPTUAL AND METHODOLOGICAL ASPECTS FROM WHICH THE RELATED TECHNICAL ACTIVITIES DERIVE.
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3
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IUS/10
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27
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-
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-
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Related or supplementary learning activities
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ITA |
20801641-1 -
DIRITTO AMMINISTRATIVO E DELL'AMBIENTE
(objectives)
FORMATIVE AIMS THE COURSE AIMS TO PROVIDE STUDENTS WITH BASIC KNOWLEDGE REGARDING THE MANAGEMENT OF PUBLIC WORKS IN THE FIELD OF CIVIL ENGINEERING. PARTICULAR REFERENCES WILL BE DONE TO THE CURRENT REGULATIONS, THE ADMINISTRATIVE PROCEDURES, AND CONCEPTUAL AND METHODOLOGICAL ASPECTS FROM WHICH THE RELATED TECHNICAL ACTIVITIES DERIVE.
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3
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IUS/10
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27
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ITA |
20802041 -
RETROFITTING OF STRUCTURES
(objectives)
The course of Rehabilitation of Structure is part of the master's degree program in Civil Engineering for Natural Risk Mitigation, which aims to train a civil engineer with high professional qualifications concerning the hydrogeological and seismic risk mitigation. As part of the Master degree program, the course of rehabilitation of structures aims at providing the fundamental tools for the assessment of existing masonry constructions. The program includes the mechanics of masonry structures, the typical damage state, the methods for survey and field testing, and the design criteria and the technologies for structural rehabilitation.
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DE FELICE GIANMARCO
( syllabus)
Methods for structural assessment of structures The yield design theory Yield design theory of masonry structures Diagnosis techniques and experimental evaluation of mechanical properties Structural assessment of arched and vaulted structures Damages induces by crushing, soil settlement and earthquake action Structural assessment od masonry structures in seismic area Seismic analysis against local collapse mechanisms Shear strength of masonry panels and seismic global analysis Structural rehabilitation techniques: examples and design projects.
( reference books)
Pisani, M.A., Consolidamento delle Strutture, Hoepli, Milano, 2012 Giuffré, A. Letture sulla meccanica delle murature storiche, Ed. Kappa, Roma. Mastrodicasa, S., Dissesti statici delle strutture edilizie, Hoepli, Milano, 1993.
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6
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ICAR/19
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54
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-
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20810106 -
SICUREZZA E ORGANIZZAZIONE DEL LAVORO IN CANTIERE
(objectives)
Safety at work and environmental defence aims at providing knowledge and competences on safety at work in civil engineering construction activities, with specific focus on rules and laws and on the professional roles in the field. At the end of the course students shall be able of acting as coordinators safety measurements design and implementation according to the Italian laws.
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Derived from
20810106 SICUREZZA E ORGANIZZAZIONE DEL LAVORO IN CANTIERE in Ingegneria civile L-7 ALFARO DEGAN GUIDO
( syllabus)
LEGAL FORM The Legislative Decree of the Government 81/2008 (Tit. I) and BS OHSAS 18001: 07, as basic legislation on safety and health at work. The DVR (Risk Assessment Document, art. 28) and art. 30, as tools for the design of the Company Management System on Health and Safety (SGSS). The SGSS and legislative compliance (Legislative Decree no. 81.08), continuous improvement and the "PDCA" principle of the Deming wheel. Training, awareness and competence. Consultation and communication. Operational control. Emergency preparedness and response. System performance, measurement, monitoring, audit and improvement. European regulations and their value; good technical standards; product directives. BS OHSAS 18001: 07 is the implementation of the SGSS as an effective tool to reduce the risks associated with health and safety in the workplace for employees, customers and interested parties. Data and case studies. Applications. The specific health and safety legislation on construction sites and work at height, the figures concerned, the Competent Bodies and the disciplinary discipline (Tit. IV Legislative Decree 81/08). The framework law on public works. Risk assessment techniques. Insights on Check List Analysis, JSA, FAST (Method of functional spaces), HAZOP, FMEA, FTA techniques. Applications and case studies. Exercises on the application of the BS OHSAS Standard Requirements to specific cases connected to mobile and temporary construction sites. System Audit Methods and Conformity Assessment. The "Production" method as a conformity assessment tool. Case studies, judgments on the application of the Safety Legislation. Literature and interpretation of incidental causes for historical events.
TECHNICAL FORM Construction site safety and organization (also relating to documentary obligations); specific treatment of health and safety risks on site (occupational diseases, excavations, demolitions, underground and tunnel works, noise, vibrations, environmental remediation, asbestos, manual handling of loads (MMdC), fire, etc.) ; prevention and protection measures, organizational procedures, risk prevention techniques during assembly, disassembly and installation of structures, vehicles and construction elements; the risk of falling from above, scaffolding and temporary works. Insights into occupational diseases related to work carried out in mobile and temporary construction sites; Accident material agents, exposure assessment methods. Practical applications. NIOSH and OCRA techniques for MMdC risk assessment and biomechanical overload of the upper limbs. Assessment of noise and vibration risk: exercises and applications; the asbestos risk, the remediation / demolition / safe treatment of MCA. Scaffolding and temporary works, construction techniques and safe management. Study cases.
METHODOLOGICAL / ORGANIZATIONAL / PRACTICAL MODULE The security and coordination plan (contents, criteria and methods, examples and project); the replacement safety plan; communication and cooperation techniques; the Operational Safety Plan and the Work Dossier; processing methods of the Pi.M.U.S. (Assembly, Use, Disassembly of scaffolding); methodological criteria for processing and managing the documentation; estimate of safety costs on site. Examples of PSC, area risk analysis, interference analysis and evaluation, the importance of planning and organization; tutorials and applications. Drafting of Operational Safety Plans (POS): practical meaning and differences with DVRs pursuant to art. 28, the evaluation of risks from interference and differences with the DUVRI (art. 26 Legislative Decree 81/08); exercises and case studies. Examples of Substitute Safety Plans (PSS); examples of Dossiers and practical applications based on the drafting of specific PSCs; judgments and sanctions regarding construction site safety; role simulations (Coordinator).
( reference books)
Lecture notes, texts, reference laws distributed in the classroom by the teacher
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6
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ING-IND/28
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54
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