Degree Course: Civil engineering Syllabus for A.Y. 2019/2020

Italian version

FIRST YEAR

First semester

Course

Credits

Scientific Disciplinary Sector Code

Contact Hours

Exercise Hours

Laboratory Hours

Personal Study Hours

Type of Activity

Language

20802114 - MATHEMATICAL ANALYSIS I (objectives)

Group: CANALE 1

- Derived from 20802114 ANALISI MATEMATICA I in Ingegneria informatica L-8 CANALE 1 TOLLI FILIPPO

Group: CANALE 2

- Derived from 20802114 ANALISI MATEMATICA I in Ingegneria informatica L-8 CANALE 2 NATALINI PIERPAOLO

Group: CANALE 3

- Derived from 20802114 ANALISI MATEMATICA I in Ingegneria informatica L-8 CANALE 3 ESPOSITO PIERPAOLO

Group: CANALE 4

- Derived from 20802114 ANALISI MATEMATICA I in Ingegneria informatica L-8 CANALE 4 SCOPPOLA ELISABETTA

Group: CANALE 5

- Derived from 20802114 ANALISI MATEMATICA I in Ingegneria informatica L-8 CANALE 5 TOLLI FILIPPO

Group: CANALE 6

- Derived from 20802114 ANALISI MATEMATICA I in Ingegneria informatica L-8 CANALE 6 NATALINI PIERPAOLO

MAT/05

108

Basic compulsory activities

ITA

20202021 - ENGLISH LANGUAGE - PASS/FAIL CERTIFICATE

Final examination and foreign language test

ITA

Optional group: comune Orientamento unico A SCELTA DELLO STUDENTE ING CIVILE - (show)

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 - 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	6	GEO/05	54	-	-	-	Elective activities	ITA
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. - 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	6	ING-IND/22	54	-	-	-	Elective activities	ITA
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. - 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	6	ICAR/03	54	-	-	-	Elective activities	ITA
20801979 - GEOMATICS (objectives) FORMATIVE AIMS TO PROVIDE BASIC KNOWLEDGE ON MAJOR THEORETICAL, METHODOLOGICAL AND OPERATIONAL ISSUES INVOLVED IN SURVEYING, SO THAT THE STUDENT CAN ACQUIRE THE NECESSARY SKILLS TO DESIGN AND PERFORM A SURVEY AND TO PROCESS THE DATA RELATED TO IT. WE DISCUSS THE BASIC PRINCIPLES OF GEODESY AND CARTOGRAPHY, THE PRINCIPLES OF SURVEYING AND THE QUANTITIES THAT CAN BE MEASURED WITH THE TOPOGRAPHICAL INSTRUMENTS, BOTH TERRESTRIAL AND SATELLITE, THE SURVEY METHODS AND THE TREATMENT OF OBSERVATIONS. - Derived from 20801979 GEOMATICA in Ingegneria civile L-7 N0	6	ICAR/06	48	-	-	-	Elective activities	ITA
20810070 - SUSTAINABILITY AND ENVIRONMENTAL IMPACT (objectives) TO PROVIDE STUDENTS WITH KNOWLEDGE ON ENVIRONMENTAL IMPACTS OF HUMAN ACTIVITIES, TO CLASSIFY THE IMPACTS, TO ILLUSTRATE THE CONCEPT OF SUSTAINABILITY, TO DESCRIBE THE EVALUATION PROCEDURES OF ENVIRONMENTAL IMPACT AND ENVIRONMENTAL CERTIFICATION PROTOCOLS. ILLUSTRATE , THROUGH SIGNIFICANT CASE STUDIES, EXAMPLES OF ENVIRONMENTAL IMPACT ASSESSMENT AND OF IMPACTS MITIGATION. - Derived from 20810070 SOSTENIBILITA' E IMPATTO AMBIENTALE in Ingegneria elettronica per l'industria e l'innovazione LM-29 ASDRUBALI FRANCESCO	6	ING-IND/11	48	-	-	-	Elective activities	ITA
20810106 - SAFETY AT WORK AND ENVIRONMENTAL DEFENCE (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. - Derived from 20810106 SICUREZZA E ORGANIZZAZIONE DEL LAVORO IN CANTIERE in Ingegneria civile L-7 ALFARO DEGAN GUIDO (syllabus) uridical Section Italian Decree 81/08 and BS Ohsas 18001: Occupational health and safety management system: Comparison between Italian Law and International Standards. The continual improvement and the Deming circle according with the PDCA approach (Plan Do Check Act). Compliance with standards and legal obligations: general features and aspects. The main phases of risk management process: hazard identification, risk assessment and controls. Correspondence between OHSAS 18001 and other related International standards (ISO 14001 and ISO 9001) Technical Section Safety and building worksites organization (including Law obligations); safety and health risks at building worksites ( (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, dismantling and installation of structures, means and construction elements; falling from above risk, case studies. Evaluation of noise and vibration risk: exercises and applications; asbestos (MCA) risk, safe cleaning / demolition / treatment of MCA. Scaffolding and temporary works, safe construction and management techniques. Study cases. Organization Section The PSC - security and coordination plan (contents, criteria and methods, examples and project); the POS Operative security plan; communication and cooperation techniques; the “Fascicolo tecnico” (Operational Safety Plan and Workbook); processing methods of the Pi.M.U.S. (Assembly Plan, Use, Disassembly of Scaffolding); methodological criteria for processing and management of documentation; estimate of the costs of safety on site. PSC examples, area risk analysis, analysis and assessment of interference, the importance of planning and organization; tutorials and applications. Examples of Safety Subsidiary Plans (PSS); examples and case studies, practical applications based on drafting of specific PSCs; judgments and sanctions concerning shipyard safety; role simulations (Coordinator). (reference books) handouts, books and tests distributed by the teacher	6	ING-IND/28	54	-	-	-	Elective activities	ITA
20801626 - DRAWING (objectives) PROVIDING ESSENTIAL KNOWLEDGE AND SKILLS FOR TECHNICAL DRAWING - Derived from 20801626 DISEGNO in Ingegneria civile L-7 N0	6	ICAR/17	48	-	-	-	Elective activities	ITA

20802081 - GEOMETRY (objectives)

20802081-1 - GEOMETRIA I MODULO (objectives)

- BRUNO ANDREA (syllabus) (reference books)

MAT/03

Basic compulsory activities

ITA

Second semester

Course

Credits

Scientific Disciplinary Sector Code

Contact Hours

Exercise Hours

Laboratory Hours

Personal Study Hours

Type of Activity

Language

20801605 - BASICS OF INFORMATICS (objectives)

- FRATI FABRIZIO (syllabus) (reference books)

ING-INF/05

Basic compulsory activities

ITA

20802081 - GEOMETRY (objectives)

20802081-2 - COMPLEMENTI DI MATEMATICA (objectives)

- BRUNO ANDREA (syllabus) (reference books)

MAT/03

Basic compulsory activities

ITA

20802115 - PHYSICS I (objectives)

20802115-2 - FISICA I MODULO II (objectives)

Group: CANALE 1

- Derived from 20802115-2 FISICA I MODULO II in Ingegneria elettronica L-8 CANALE 1 BORGHI RICCARDO

Group: CANALE 2

- Derived from 20802115-2 FISICA I MODULO II in Ingegneria elettronica L-8 CANALE 2 SANTARSIERO MASSIMO

Group: CANALE 3

- Derived from 20802115-2 FISICA I MODULO II in Ingegneria elettronica L-8 CANALE 3 GABRIELLI ANDREA

Group: CANALE 4

- Derived from 20802115-2 FISICA I MODULO II in Ingegneria elettronica L-8 CANALE 4 GORI PAOLA

FIS/01

Basic compulsory activities

ITA

20802115-1 - FISICA I MODULO I (objectives)

Group: CANALE 1

- Derived from 20802115-1 FISICA I MODULO I in Ingegneria elettronica L-8 CANALE 1 BORGHI RICCARDO

Group: CANALE 2

- Derived from 20802115-1 FISICA I MODULO I in Ingegneria elettronica L-8 CANALE 2 SANTARSIERO MASSIMO

Group: CANALE 3

- Derived from 20802115-1 FISICA I MODULO I in Ingegneria elettronica L-8 CANALE 3 GABRIELLI ANDREA

Group: CANALE 4

- Derived from 20802115-1 FISICA I MODULO I in Ingegneria elettronica L-8 CANALE 4 GORI PAOLA

FIS/01

Basic compulsory activities

ITA

20802116 - FUNDAMENTALS OF CHEMISTRY (objectives)

Group: CANALE 1

- Derived from 20802116 CHIMICA in Ingegneria elettronica L-8 CANALE 1 SOTGIU GIOVANNI (syllabus) (reference books)

Group: CANALE 2

- Derived from 20802116 CHIMICA in Ingegneria elettronica L-8 CANALE 2 DE SANTIS SERENA (syllabus) (reference books)

Group: CANALE 3

- Derived from 20802116 CHIMICA in Ingegneria elettronica L-8 CANALE 3 ORSINI MONICA (syllabus) (reference books)

Group: CANALE 4

- Derived from 20802116 CHIMICA in Ingegneria elettronica L-8 CANALE 4 SOTGIU GIOVANNI (syllabus) (reference books)

CHIM/07

Basic compulsory activities

ITA

Optional group: comune Orientamento unico A SCELTA DELLO STUDENTE ING CIVILE - (show)

20801671 - ELECTROTECHNICS (objectives) THE COURSE OBJECTIVE IS TO PROVIDE AT STUDENTS SUITABLE LECTURES FOR AN INTRODUCTION TO THE ELECTRICAL ENGINEERING. - Derived from 20801671 ELETTROTECNICA in Ingegneria civile L-7 N0 SALVINI ALESSANDRO (syllabus) 1 Electric Circuits 2 Kirchhoff's laws, RLC Bipoles, Electric Power 3 Node and Loop Analysis 4 Circuits of 1st and 2nd Order in time domain 5 Sinusoidal AC regime. Phasor Method 6 Three phase Systems and Their Main Properties, Rotating Magnetic Field 7 Electric Lines and basics on LV plant design 8 Magnetic Circuits, Power Transformers and Measuring Transformers 9 Basic Principles of Electromechanical Energy Conversion and Static Converters 10 Protection, calculation of short circuit currents in LV systems and their thermal and mechanical effects 11 Ground 12 Basics on Electrical Safety 13 Notes on Renewable Energy Sources, Photovoltaic and Wind Systems (reference books) Handouts by the teacher.	6	ING-IND/31	54	-	-	-	Elective activities	ITA
20801672 - ENVIRONMENTAL TECHNICAL PHYSICS (objectives) THE COURSE AIMS AT PROVIDING THE KNOWLEDGE NECESSARY TO EVALUATE HEAT TRANSFER PROCESSES (CONDUCTION, CONVECTION, RADIATION) BETWEEN BODIES AND INSIDE A BODY, AS WELL AS THE TEMPERATURE VARIATIONS THESE PROCESSES CAUSE. ANOTHER AREA IS THAT OF INDOOR THERMAL COMFORT. - Derived from 20801672 FISICA TECNICA AMBIENTALE in Ingegneria civile L-7 N0 ASDRUBALI FRANCESCO (syllabus) 1. Heat transfer Conduction. Thermal fields. Postulate and Fourier equation. Steady state wall. Fourier wall. Convection. Phenomenological analysis. Boundary layer. Natural and forced convection. Dimensional analysis method. Reynolds, Prandtl, Grashof and Nusselt numbers. Radiation. Radiant energy: definitions, properties, absorption coefficient. Emission and absorption properties of condensed bodies. Principle of Kirchhoff. Laws of the black body. Radiation properties of the bodies. Greenhouse effect. Heat exchange between facing flat surfaces. Radiation shields. Applications. Adduction. Multi-layer flat wall between two fluids. Transmittance. Wall cavities. Circuits for heat distribution. Matt and glazed walls exposed to solar radiation. Insulating materials. Solar Energy. Characteristics of solar radiation. Devices for solar energy capitation (flat panels and parabolic-cylindrical systems) and evaluation of their performance. 2. Thermodynamics Definitions: thermodynamic systems, equilibrium, transformations. Clapeyron plan. Zero Principle. Temperature measurement. First Principle. Thermal machines. Second principle. Entropy and entropic plan. Reversibility. Entropy and irreversibility. Properties of Matter. Aggregation states. State diagram of a pure substance. Properties of two-phase mixtures. Perfect gases. Van der Waals Fluid. Principle of corresponding states. State equations. Phase diagrams: entropic, enthalpic, refrigerating diagram. Open thermodynamic systems. Energy equation and applications in steady state. Reversible work of an open system. Continuity equation and Bernoulli equation. Thermal machines. Advantages and applications of steam machines. Rankine cycle. Rankine-Hirn cycle. Systems with turbine expanders. The regeneration of the heat and steam extractions. Refrigerating machines. Vapour compression machines. Reverse Rankine cycle. Efficiency. Irreversibility. Refrigerants. Compression heat pumps. Absorption machines: operating principle. Air conditioning. Atmospheric air. Psychrometric variables. The ASHRAE psychrometric chart. Thermal comfort. Psychrometric processes. Air treatments. Description of an air conditioner. Regulation. Installations 3. Acoustics Physical Acoustics: acoustic parameters, sound fields, sources and spectra. Sound-absorbing materials. Sound insulating structures. Psyco-acoustics. The hear: hearing physiology, hearing sensation; quality of sensation. Audiograms. The sound level meter. Noise and noise disturbance. Phonometric measurements. Elements of room acoustics: Reverberation, Sabine theory. Room acoustics design and correction. Actions for noise mitigation. 4. Lighting Technique Photometry. The eye. The quality of vision. The visible radiant energy. The visibility curve. Visibility curve construction. Definition of photometric quantities. Artificial light sources. Features of a lighting source. Classification of lamps. Photometric curves. Elements of lighting engineering. Indoors and outdoors artificial lighting. The total flux method. Applications. Daylighting. (reference books) Recommended reading: 1) M. Felli: Lezioni di Fisica Tecnica 1: Termodinamica, Macchine, Impianti, Nuova edizione a cura di Francesco Asdrubali, Morlacchi editore, 2009. 2) M. Felli: Lezioni di Fisica Tecnica 2: Trasmissione del Calore, Acustica, Tecnica dell’Illuminazione, Nuova edizione a cura di Cinzia Buratti, Morlacchi editore, 2010. 3) Francesco Asdrubali - Claudia Guattari - Luca Evangelisti, Esercizi di fisica tecnica, Morlacchi editore 2018	6	ING-IND/11	54	-	-	-	Elective activities	ITA
20802129 - Fundamentals of Business and Accounting for students of Engineering (objectives) THE MAIN GOAL OF THE COURSE IS TO DRIVE THE ENGINEERING STUDENTS THROUGH THE ORGANIZATION OF THE FIRMS, BY DEFINING THEIR LOGICAL BOUNDARIES AND THEIR MAIN CHARACTERISTICS. AT THE END OF THE LESSONS, THE STUDENTS ARE EXPECTED TO BE ABLE TO KNOW THE INSTITUTIONAL MATTERS OF THE FIRMS (BOTH PROFIT ORIENTED AND NOT FOR PROFIT), THEIR OBJECTIVES AND THE MAIN WAYS THEY HAVE TO PURSUE IN ORDER ACHIEVE THEIR OWN GOALS. - Derived from 20802129 ELEMENTI DI ECONOMIA AZIENDALE PER INGEGNERIA in Ingegneria civile L-7 N0 REGOLIOSI CARLO (syllabus) 1. Business organizations as Economic Operators 2. The distinction between the economic decision maker and the legal representative of a business 3. Different types of business organizations 4. For-profit entities and their characteristics 5. Business organizations in the private and public sectors 6. Various types of Business Combinations 7. Theleological issues characterising for profit firms 8. Remuneration schemes for production factors 9. Business risk, income and profits 10. Financing schemes and capital budgeting 11. The choice between equity, debt and self-financing-related issues 12. The project financing as a concrete pattern of realization of infrastructural investments 13. Markets and the forecast of customer demand 14. Production: some issues 15. Investment choices and policies 16. Internal control system: some issues 17. Equity, management and income: logical issues and accounting treatment policies 18. The annual report: content and usefulness for stakeholders (reference books) Boveé, Till (2017) Business in Action 8ed, Pearson	6	ING-IND/35	54	-	-	-	Elective activities	ITA
20801625 - URBAN TECHNOLOGY AND PLANNING (objectives) THE COURSE PROVIDES GENERAL KNOWLEDGE, EVEN IN RELATION TO NATIONAL AND REGIONAL LEGISLATION, FOR URBAN DESIGN, ACCORDING TO THE CHANGES MADE IN THE URBANIZED AREA AND IN THE ENVIRONMENT, DERIVING FROM THE REALIZATION OF LARGE PROJECTS, PUBLIC AND PRIVATE. - Derived from 20801625 TECNICA E PIANIFICAZIONE URBANISTICA in Ingegneria civile L-7 N0 (A-Z)	6	ICAR/20	54	-	-	-	Elective activities	ITA

SECOND YEAR

First semester

Course	Credits	Scientific Disciplinary Sector Code	Contact Hours	Exercise Hours	Laboratory Hours	Personal Study Hours	Type of Activity	Language
20802078 - TRANSPORT TECHNOLOGY AND ECONOMICS (objectives) TO PROVIDE BASIC ELEMENTS FOR THE DESIGN, THE BUILDING AND THE MANAGEMENT OF MAIN TRANSPORTATION SYSTEMS. THE TECHNICAL EFFICIENCY OF THE SYSTEM AND ITS INTERACTIONS WITH THE OTHER TERRITORY COMPONENTS WILL BE TREATED BOTH IN TECHNICAL AND ECONOMICAL CONVENIENCES TERMS. - CARRESE STEFANO (syllabus) Road transport, Railway transport and elements of transportation Economy (reference books) Cantarella G.E. Sistemi di trasporto: Tecnica ed Economia 2007 UTET	9	ICAR/05	72	-	-	-	Core compulsory activities	ITA
20802134 - INTRODUCTION TO STRUCTURAL MECHANICS (objectives) AFTER A PRESENTATION OF THE FUNDAMENTAL CONCEPTS ON DEFORMATION AND EQUILIBRIUM OF CONTINUOUS BODIES IN LINEAR ELASTICITY, THE COURSE FOCUSES ON SAINT-VENANT’S BEAM THEORY AND ITS APPLICATIONS TO THE ANALYSIS OF TYPICAL STRUCTURES OF CIVIL ENGINEERING. AT THE END OF THE COURSE, A STUDENT SHOULD BE ABLE TO DETERMINE THE STATE OF DEFORMATION AND STRESS IN SIMPLE STRUCTURES AND TO EVALUATE THEIR SAFETY UNDER THE ACTION OF GIVEN LOADS. - LEMBO MARZIO (syllabus) Vectors. Moment of a vector with respect to a point. Resultant force and resultant moment of a system of vectors. Equivalence of systems of vectors. Planar systems. Linear transformations on vector spaces. Second-order tensors. Differentiation of vector and tensor functions. Gradient and divergence. Divergence theorem. Stokes’ theorem. Centroid of a material system. First moments and moments of inertia of a planar region. Moments of inertia of a planar region with respect to lines passing through a given point. Mohr’s circles. Polarity and involutions determined by the ellipse of inertia. Equilibrium of a material point. Constraints. Infinitesimal rigid displacements. Euler’s theorem. Work in a rigid displacement. Equilibrium equations of rigid bodies. Beams and frames. Diagrams of the components of force and couple resultants. Forces exerted by the constraints. Principle of virtual work for rigid bodies. Statically determined structures. Graphic statics. Deformation of a continuous body. Measures of deformation. Principal strains. Volume change. Compatibility conditions. Equilibrium equations of deformable bodies. Stress tensor. Principal stresses. Plane stress. Mohr’s circles for stresses. Constitutive equations. Hyperelastic materials. Energy functional. Clapeyron’s theorem. Equilibrium boundary-value problems. Betti’s theorem. Virtual work principle for deformable bodies. Von Mises and Tresca yield criteria. Saint-Venant’s problem. Extension, bending, torsion, and shear of beams. Equilibrium differential equations for a beam. Limitations of the theory. Allowable stress. Euler’s critical load. Effects of imperfect constraints and temperature variations. Mohr’s analogue. Hyperstatic beams. Continuous beams. Analysis of planar trusses and frames by means of virtual work principle, force and displacement methods. (reference books) Notes written by the teacher. Files employed for the lectures are published on the “moodle” page of the course.	12	ICAR/08	96	-	-	-	Core compulsory activities	ITA
20810100 - HYDRAULICS (objectives) The course aims to develop the schemes and models necessary to describe hydraulics problems in civil engineering. The course is characterized by a connection between theory and applications.
- Modulo I (objectives) The course aims to develop the schemes and models necessary to describe hydraulics problems in civil engineering. The course is characterized by a connection between theory and applications. - PRESTININZI PIETRO (syllabus) - fluid continuum model - body forces and surface forces - Cauchy stress tensor - kinematics - velocity and acceleration, pathlines and streamlines - conservation laws: differential and integral form - hydrostatics - ideal fluid Bernoulli's theorem - uniform flows: one dimensional dissipative model - pipe flow (reference books) Theory: Citrini, Noseda – Idraulica - Ed. Ambrosiana Mossa, Petrillo – IDRAULICA. Ed. Casa Editrice Ambrosiana, Milano Applications: Alfonsi, Orsi – Problemi di idraulica e meccanica dei fluidi. Ed. Casa Editrice Ambrosiana, Milano	6	ICAR/01	48	-	-	-	Core compulsory activities	ITA
- Modulo II (objectives) The course aims to develop the schemes and models necessary to describe hydraulics problems in civil engineering. The course is characterized by a connection between theory and applications. - ADDUCE CLAUDIA (syllabus) - Permanent and unsteady flow in pipes: Continuity and momentum equations, water hammer. - Uniform free surface flows: flow in channels, Chezy formula, discharge calculation, specific energy, Froude number. - Non uniform free surface flows: gradually varied flows, equation of continuity, momentum equation, channels on mild and steep slope, forms of water surface, the hydraulic jump, rapidly varied flows (underflow gates, channel with variable bed floor, channel with variable width). - Dimensional analysis and Buckingam theorem. - Physical models and similitude. (reference books) D. Citrini e G. Noseda, Idraulica, Casa Editrice Ambrosiana M. Mossa e F. Petrillo, Idraulica, Casa Editrice Ambrosiana	6	ICAR/01	48	-	-	-	Core compulsory activities	ITA

Second semester

Course	Credits	Scientific Disciplinary Sector Code	Contact Hours	Exercise Hours	Laboratory Hours	Personal Study Hours	Type of Activity	Language
20802074 - HYDRAULIC INFRASTRUCTURES (objectives) MAIN PROBLEMATICS AND BASIC CRITERA FOR THE DESIGN OF HYDRAULIC INFRASTRUCTURAL SYSTEMS FOR WATER MANAGEMENT - VOLPI ELENA (syllabus) The course is made of two parts. The first part provides the students with the main notions of applied hydrology for water managemnt and flood risk management; the second is dedicated to the design of urban water supply systems. Part 1 – Hydrology 1.1) Rainfall: rainfall genesis, rainfall measurements, rainfall regimes, intense rainfall, rainfall amount at the catchment scale. 1.2) Evapotranspiration: phenomenology and measures. 1.3) Catchment and hydrogeological basin definitions: water balance. 1.4) Groundwater hydrology: unsaturated zone and aquifers. 1.5) Surface water storage: lakes. 1.6) Surface water flow: flow discharge measurements, river regimes, low and base flow, probabilistic models. 1.7) Hydrologic losses and runoff generation machismos. 1.8) Rainfall-runoff models: lumped linear models, kinematic model. Part 2 – Water supply and sewer systems 2.1) Water use: domestic water, sustainable water use. 2.2) Water-intake hydraulic structures for surface water. 2.3) Artificial lakes. 2.4) Water transport, open channel flow. 2.5) Water transport, aqueducts, network configurations, pipelines, manufactures, pumping stations. 2.6) Urban reservoirs. 2.7) Sewer systems. (reference books) (in Italian) Calenda, G. (2016). Infrastrutture Idrauliche. Vol. 1 – Idrologia e Risorsa Idrica, Edizioni Efesto, Roma. Calenda, G. (2017). Introduzione alla statistica (dispense). Calenda, G. (2017). Fognature (dispense).	9	ICAR/02	72	-	-	-	Core compulsory activities	ITA
20802077 - CONSTRUCTION TECHNIQUES V.O. (objectives) PROVIDE THE TOOLS FOR THE COMPREHENSION OF THE BEHAVIOR AND THE DESIGN OF STEEL AND REINFORCED CONCRETE STRUCTURES, EVALUATE THE STRUCTURAL SAFETY WITH RESPECT TO SERVICEABILITY AND ULTIMATE LIMIT STATES, DESIGN SIMPLE STRUCTURAL ELEMENTS, SUCH AS COLUMNS, BEAMS OR FRAMES. - DE SANTIS STEFANO (syllabus) CONTENTS OF THE COURSE 1. Safety of structures and Limit States approach 2. Actions on structures and their combinations 3. Steel structures - Mechanical properties of steel - Design of steel members under tensile loading - Design of steel members under bending and shear - Design of steel members under compression and bending (buckling) - Design of bolted and welded joints - Reticular beams 4. Reinforced concrete (r.c.) structures - Mechanical properties of steel and concrete - Design of r.c. beams under bending and shear - Design of r.c. columns under compression and bending - Design and representation of steel rebars and details (reference books) Testi e normative fondamentali di riferimento / Main books and building codes - Giannini R, Teoria e Tecnica delle Costruzioni Civili, CittàStudi, 2011 - Norme tecniche per le costruzioni, DM 14/01/2008 – Cap 1, 2, 3, 4, 11 - Circolare sulle Nuove norme tecniche per le costruzioni di cui al DM 14/01/2008 (GU n.47 26/02/2009) Testi di approfondimento / Other books - AICAP, Dettagli Costruttivi di Strutture in Calcestruzzo Armato, 2011 - AICAP, Costruzioni in Calcestruzzo, Costruzioni composte acciaio-calcestruzzo, Commentario alle Norme -Tecniche per le Costruzioni D.M. 14/1/2008, 2011. - Mezzina M. Fondamenti di tecnica delle costruzioni. Cittàstudi, 2013 - Cosenza E, Manfredi G, Pecce M. Strutture in Cemento Armato. Basi della progettazione. Hoepli, 2015. - Bernuzzi C. Progetto e verifica delle strutture in acciaio. Hoepli, 2011. Altre normative / Other standards - Eurocode 2: Design of concrete structures – Part 1-1: General rules and rules for buildings (prEN 1992-1-1) December 2003 – Italian Annex - Consiglio Superiore dei Lavori Pubblici, Servizio Tecnico Centrale. Linee guida per la messa in opera del calcestruzzo strutturale. Settembre 2017 - Consiglio Superiore dei Lavori Pubblici, Servizio Tecnico Centrale. Linee guida per la valutazione delle caratteristiche meccaniche del calcestruzzo indurito mediante prove non distruttive. Settembre 2017	9	ICAR/09	72	-	-	-	Core compulsory activities	ITA
20802076 - ROADS, RAILWAYS AND AIRPORTS (objectives) THE AIM OF THE COURSE IS TO INTRODUCE THE STUDENT TO FUNDAMENTAL ISSUES ON ROAD INFRASTRUCTURES DESIGN IN SUBURBAN AREA, THROUGH THE ANALYSIS OF THE INTERFERENCES WITH URBAN PLANNING, AND THE DEEPENING OF SOCIAL AND ECONOMICAL PROGRAMS OF DEVELOPMENT. WITH REGARD TO THE GEOMETRICAL FEATURES OF A ROAD TRACK, TOPICS CONCERNING THE MINISTERIAL DECREE D.M. 11.2001 ARE EXHAUSTIVELY DISCUSSED. MOREOVER, THE MAIN FEATURES OF A RAILWAY SYSTEM AS WELL AS THE ESSENTIAL ELEMENTS OF AN AIRPORT MASTER PLAN ARE PROPOSED. - BENEDETTO ANDREA (syllabus) Main principles of transportation infrastructures design Physical and functional characteristics of transportation infrastructures Constraints and limits for design Transportation and mobility demand Road transversal section design Geometrical design Horizontal and Vertical aligment Safety Road material and pavement design principles Road hydraulics Railways Airports (reference books) A. Benedetto (2015) "Strade Ferrovie Aeroporti." UTET Università. De Agostini Scuola. Novara	9	ICAR/04	72	-	-	-	Core compulsory activities	ITA

THIRD YEAR

First semester

Course

Credits

Scientific Disciplinary Sector Code

Contact Hours

Exercise Hours

Laboratory Hours

Personal Study Hours

Type of Activity

Language

20802027 - GEOTECHNICS I (objectives)

- LEMBO FAZIO ALBINO (syllabus) (reference books)

ICAR/07

Core compulsory activities

ITA

20802079 - INTEGRATED DESIGN FOR VARIOUS INFRASTRUCTURES (objectives)

- D'AMICO FABRIZIO (syllabus) (reference books)

ICAR/04

Core compulsory activities

ITA

20802080 - TRANSPORT SYSTEMS DESIGN (objectives)

- MANNINI LIVIA (syllabus) (reference books)

ICAR/05

Core compulsory activities

ITA

Optional group: comune Orientamento unico AFFINI INTEGRATIVE - (show)

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 - 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	6	GEO/05	54	-	-	-	Related or supplementary learning activities	ITA
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. - 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	6	ING-IND/22	54	-	-	-	Related or supplementary learning activities	ITA
20801621 - ENVIRONMENTAL HEALTH ENGINEERING (objectives) TEACHING MAKES THE GENERAL TERMS, EVEN IN RELATION TO REGIONAL AND NATIONAL LEGISLATION ON WASTE MANAGEMENT (COLLECTION, TREATMENT AND DISPOSAL) AND RECLAMATION OF CONTAMINATED SITES. - 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	6	ICAR/03	54	-	-	-	Related or supplementary learning activities	ITA
20801626 - DESIGN (objectives) Transfer knowledge about theories, norms, methods and tools for analysis and planning of the city and the territory. Interpretation and analysis of urban models, for the design of general and implementing urban plans. The European directives for the sustainable redevelopment of the territories The course has the following objectives: to transfer the principles of the urban planning; disseminate knowledge of complex city and territory systems; indicate the techniques to interpret, plan, design, govern the city and the territory; indicate the main urban planning and design tools for the protection and sustainable development of the territory.	6	ICAR/17	48	-	-	-	Related or supplementary learning activities	ITA
20801979 - GEOMATICS (objectives) FORMATIVE AIMS TO PROVIDE BASIC KNOWLEDGE ON MAJOR THEORETICAL, METHODOLOGICAL AND OPERATIONAL ISSUES INVOLVED IN SURVEYING, SO THAT THE STUDENT CAN ACQUIRE THE NECESSARY SKILLS TO DESIGN AND PERFORM A SURVEY AND TO PROCESS THE DATA RELATED TO IT. WE DISCUSS THE BASIC PRINCIPLES OF GEODESY AND CARTOGRAPHY, THE PRINCIPLES OF SURVEYING AND THE QUANTITIES THAT CAN BE MEASURED WITH THE TOPOGRAPHICAL INSTRUMENTS, BOTH TERRESTRIAL AND SATELLITE, THE SURVEY METHODS AND THE TREATMENT OF OBSERVATIONS.	6	ICAR/06	48	-	-	-	Related or supplementary learning activities	ITA
20810070 - SUSTAINABILITY AND ENVIRONMENTAL IMPACT (objectives) TO PROVIDE STUDENTS WITH KNOWLEDGE ON ENVIRONMENTAL IMPACTS OF HUMAN ACTIVITIES, TO CLASSIFY THE IMPACTS, TO ILLUSTRATE THE CONCEPT OF SUSTAINABILITY, TO DESCRIBE THE EVALUATION PROCEDURES OF ENVIRONMENTAL IMPACT AND ENVIRONMENTAL CERTIFICATION PROTOCOLS. ILLUSTRATE , THROUGH SIGNIFICANT CASE STUDIES, EXAMPLES OF ENVIRONMENTAL IMPACT ASSESSMENT AND OF IMPACTS MITIGATION. - Derived from 20810070 SOSTENIBILITA' E IMPATTO AMBIENTALE in Ingegneria elettronica per l'industria e l'innovazione LM-29 ASDRUBALI FRANCESCO	6	ING-IND/11	48	-	-	-	Related or supplementary learning activities	ITA
20810106 - SICUREZZA E ORGANIZZAZIONE DEL LAVORO IN CANTIERE (objectives) ITALIAN DECREE 81.08 AND BS OHSAS 18001:07. WHY ORGANIZATIONS ARE IMPLEMENTING AN OCCUPATIONAL HEALTH AND SAFETY MANAGEMENT SYSTEM (OHSMS) AS PART OF THEIR RISK MANAGEMENT STRATEGY TO ADDRESS CHANGING LEGISLATION AND PROTECT THEIR WORKFORCE? THE ITALIAN DVR (RISK ASSESSMENT DOCUMENT) AND THE ART. 30. THE OHSMS AS A TOOL OF PROMOTION OF SAFE AND HEALTHY WORKING ENVIRONMENT. LEGISLATIVE COMPLIANCE AND OVERALL PERFORMANCE IMPROVING. OHSAS 18001:07 E UNI INAIL GUIDE LINES. THE INTERNATIONALLY RECOGNIZED ASSESSMENT SPECIFICATION FOR OCCUPATIONAL HEALTH AND SAFETY MANAGEMENT SYSTEMS. THE OHSAS 18001:07 COMPATIBILITY WITH ISO 9001 AND ISO 14001. THE PLAN – DO –CHECK – ACT SYSTEM. THE DEMING WHEEL. IMPROVING THE OCCUPATIONAL HEALTH AND SAFETY MANAGEMENT SYSTEM (OHSMS). PLANNING FOR HAZARD IDENTIFICATION, RISK ASSESSMENT AND RISK CONTROL. OHSAS MANAGEMENT PROGRAMME. STRUCTURE AND RESPONSIBILITY. TRAINING, AWARENESS AND COMPETENCE. CONSULTATION AND COMMUNICATION. OPERATIONAL CONTROL. EMERGENCY PREPAREDNESS AND RESPONSE. PERFORMANCE MEASURING, MONITORING AND IMPROVEMENT. OHSAS 18001:07 CONCLUSIONS. OHSMS AS AN EFFECTIVE TOOL TO REDUCE THE RISKS ASSOCIATED WITH HEALTH AND SAFETY IN THE WORKING ENVIRONMENT FOR EMPLOYEES, CUSTOMERS AND THE GENERAL PUBLIC. DATA AND CASE STUDIES. - ALFARO DEGAN GUIDO (syllabus) uridical Section Italian Decree 81/08 and BS Ohsas 18001: Occupational health and safety management system: Comparison between Italian Law and International Standards. The continual improvement and the Deming circle according with the PDCA approach (Plan Do Check Act). Compliance with standards and legal obligations: general features and aspects. The main phases of risk management process: hazard identification, risk assessment and controls. Correspondence between OHSAS 18001 and other related International standards (ISO 14001 and ISO 9001) Technical Section Safety and building worksites organization (including Law obligations); safety and health risks at building worksites ( (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, dismantling and installation of structures, means and construction elements; falling from above risk, case studies. Evaluation of noise and vibration risk: exercises and applications; asbestos (MCA) risk, safe cleaning / demolition / treatment of MCA. Scaffolding and temporary works, safe construction and management techniques. Study cases. Organization Section The PSC - security and coordination plan (contents, criteria and methods, examples and project); the POS Operative security plan; communication and cooperation techniques; the “Fascicolo tecnico” (Operational Safety Plan and Workbook); processing methods of the Pi.M.U.S. (Assembly Plan, Use, Disassembly of Scaffolding); methodological criteria for processing and management of documentation; estimate of the costs of safety on site. PSC examples, area risk analysis, analysis and assessment of interference, the importance of planning and organization; tutorials and applications. Examples of Safety Subsidiary Plans (PSS); examples and case studies, practical applications based on drafting of specific PSCs; judgments and sanctions concerning shipyard safety; role simulations (Coordinator). (reference books) handouts, books and tests distributed by the teacher	6	ING-IND/28	54	-	-	-	Related or supplementary learning activities	ITA

20801648 - PROBABILITY AND STATISTICS (objectives)

- MARTINELLI FABIO (syllabus) (reference books)

MAT/06

Related or supplementary learning activities

ITA

Second semester

Course

Credits

Scientific Disciplinary Sector Code

Contact Hours

Exercise Hours

Laboratory Hours

Personal Study Hours

Type of Activity

Language

20801614 - STRUCTURAL DESIGN (objectives)

- MALENA MARIALAURA (syllabus) (reference books)

ICAR/09

Core compulsory activities

ITA

20801619 - HYDRAULIC WORKS DESIGN (objectives)

- MANCINI CORRADO PAOLO (syllabus) (reference books)

ICAR/02

Core compulsory activities

ITA

20801907 - FINAL EXAM

Final examination and foreign language test

ITA

Optional group: comune Orientamento unico AFFINI INTEGRATIVE - (show)

20801671 - ELECTROTECHNICS (objectives) THE COURSE OBJECTIVE IS TO PROVIDE AT STUDENTS SUITABLE LECTURES FOR AN INTRODUCTION TO THE ELECTRICAL ENGINEERING. - SALVINI ALESSANDRO (syllabus) 1 Electric Circuits 2 Kirchhoff's laws, RLC Bipoles, Electric Power 3 Node and Loop Analysis 4 Circuits of 1st and 2nd Order in time domain 5 Sinusoidal AC regime. Phasor Method 6 Three phase Systems and Their Main Properties, Rotating Magnetic Field 7 Electric Lines and basics on LV plant design 8 Magnetic Circuits, Power Transformers and Measuring Transformers 9 Basic Principles of Electromechanical Energy Conversion and Static Converters 10 Protection, calculation of short circuit currents in LV systems and their thermal and mechanical effects 11 Ground 12 Basics on Electrical Safety 13 Notes on Renewable Energy Sources, Photovoltaic and Wind Systems (reference books) Handouts by the teacher.	6	ING-IND/31	54	-	-	-	Related or supplementary learning activities	ITA
20801672 - ENVIRONMENTAL TECHNICAL PHYSICS (objectives) THE COURSE AIMS AT PROVIDING THE KNOWLEDGE NECESSARY TO EVALUATE HEAT TRANSFER PROCESSES (CONDUCTION, CONVECTION, RADIATION) BETWEEN BODIES AND INSIDE A BODY, AS WELL AS THE TEMPERATURE VARIATIONS THESE PROCESSES CAUSE. ANOTHER AREA IS THAT OF INDOOR THERMAL COMFORT. - ASDRUBALI FRANCESCO (syllabus) 1. Heat transfer Conduction. Thermal fields. Postulate and Fourier equation. Steady state wall. Fourier wall. Convection. Phenomenological analysis. Boundary layer. Natural and forced convection. Dimensional analysis method. Reynolds, Prandtl, Grashof and Nusselt numbers. Radiation. Radiant energy: definitions, properties, absorption coefficient. Emission and absorption properties of condensed bodies. Principle of Kirchhoff. Laws of the black body. Radiation properties of the bodies. Greenhouse effect. Heat exchange between facing flat surfaces. Radiation shields. Applications. Adduction. Multi-layer flat wall between two fluids. Transmittance. Wall cavities. Circuits for heat distribution. Matt and glazed walls exposed to solar radiation. Insulating materials. Solar Energy. Characteristics of solar radiation. Devices for solar energy capitation (flat panels and parabolic-cylindrical systems) and evaluation of their performance. 2. Thermodynamics Definitions: thermodynamic systems, equilibrium, transformations. Clapeyron plan. Zero Principle. Temperature measurement. First Principle. Thermal machines. Second principle. Entropy and entropic plan. Reversibility. Entropy and irreversibility. Properties of Matter. Aggregation states. State diagram of a pure substance. Properties of two-phase mixtures. Perfect gases. Van der Waals Fluid. Principle of corresponding states. State equations. Phase diagrams: entropic, enthalpic, refrigerating diagram. Open thermodynamic systems. Energy equation and applications in steady state. Reversible work of an open system. Continuity equation and Bernoulli equation. Thermal machines. Advantages and applications of steam machines. Rankine cycle. Rankine-Hirn cycle. Systems with turbine expanders. The regeneration of the heat and steam extractions. Refrigerating machines. Vapour compression machines. Reverse Rankine cycle. Efficiency. Irreversibility. Refrigerants. Compression heat pumps. Absorption machines: operating principle. Air conditioning. Atmospheric air. Psychrometric variables. The ASHRAE psychrometric chart. Thermal comfort. Psychrometric processes. Air treatments. Description of an air conditioner. Regulation. Installations 3. Acoustics Physical Acoustics: acoustic parameters, sound fields, sources and spectra. Sound-absorbing materials. Sound insulating structures. Psyco-acoustics. The hear: hearing physiology, hearing sensation; quality of sensation. Audiograms. The sound level meter. Noise and noise disturbance. Phonometric measurements. Elements of room acoustics: Reverberation, Sabine theory. Room acoustics design and correction. Actions for noise mitigation. 4. Lighting Technique Photometry. The eye. The quality of vision. The visible radiant energy. The visibility curve. Visibility curve construction. Definition of photometric quantities. Artificial light sources. Features of a lighting source. Classification of lamps. Photometric curves. Elements of lighting engineering. Indoors and outdoors artificial lighting. The total flux method. Applications. Daylighting. (reference books) Recommended reading: 1) M. Felli: Lezioni di Fisica Tecnica 1: Termodinamica, Macchine, Impianti, Nuova edizione a cura di Francesco Asdrubali, Morlacchi editore, 2009. 2) M. Felli: Lezioni di Fisica Tecnica 2: Trasmissione del Calore, Acustica, Tecnica dell’Illuminazione, Nuova edizione a cura di Cinzia Buratti, Morlacchi editore, 2010. 3) Francesco Asdrubali - Claudia Guattari - Luca Evangelisti, Esercizi di fisica tecnica, Morlacchi editore 2018	6	ING-IND/11	54	-	-	-	Related or supplementary learning activities	ITA
20802129 - Fundamentals of Business and Accounting for students of Engineering (objectives) THE MAIN GOAL OF THE COURSE IS TO DRIVE THE ENGINEERING STUDENTS THROUGH THE ORGANIZATION OF THE FIRMS, BY DEFINING THEIR LOGICAL BOUNDARIES AND THEIR MAIN CHARACTERISTICS. AT THE END OF THE LESSONS, THE STUDENTS ARE EXPECTED TO BE ABLE TO KNOW THE INSTITUTIONAL MATTERS OF THE FIRMS (BOTH PROFIT ORIENTED AND NOT FOR PROFIT), THEIR OBJECTIVES AND THE MAIN WAYS THEY HAVE TO PURSUE IN ORDER ACHIEVE THEIR OWN GOALS. - REGOLIOSI CARLO (syllabus) 1. Business organizations as Economic Operators 2. The distinction between the economic decision maker and the legal representative of a business 3. Different types of business organizations 4. For-profit entities and their characteristics 5. Business organizations in the private and public sectors 6. Various types of Business Combinations 7. Theleological issues characterising for profit firms 8. Remuneration schemes for production factors 9. Business risk, income and profits 10. Financing schemes and capital budgeting 11. The choice between equity, debt and self-financing-related issues 12. The project financing as a concrete pattern of realization of infrastructural investments 13. Markets and the forecast of customer demand 14. Production: some issues 15. Investment choices and policies 16. Internal control system: some issues 17. Equity, management and income: logical issues and accounting treatment policies 18. The annual report: content and usefulness for stakeholders (reference books) Boveé, Till (2017) Business in Action 8ed, Pearson	6	ING-IND/35	54	-	-	-	Related or supplementary learning activities	ITA
20801625 - URBAN TECHNOLOGY AND PLANNING (objectives) THE COURSE PROVIDES GENERAL KNOWLEDGE, EVEN IN RELATION TO NATIONAL AND REGIONAL LEGISLATION, FOR URBAN DESIGN, ACCORDING TO THE CHANGES MADE IN THE URBANIZED AREA AND IN THE ENVIRONMENT, DERIVING FROM THE REALIZATION OF LARGE PROJECTS, PUBLIC AND PRIVATE.	6	ICAR/20	54	-	-	-	Related or supplementary learning activities	ITA

21201479 - OTHER TRAINING ACTIVITIES (LANGUAGES, INFORMATICS OR INTERNSHIPS)

Other activities

ITA

Teachings extracurricular: (hide)

20810024 - COMPUTER-AIDED DESIGN FOR CIVIL ENGINEERING

- CALVI ALESSANDRO

ICAR/04

ITA