|Teaching is organised as follows:|
|Unit||Credits||Academic sector||Period||Academic staff|
|FISICA TECNICA AMBIENTALE E INDUSTRIALE||3||ING-IND/11-BUILDING PHYSICS AND BUILDING ENERGY SYSTEMS||TPALL 2° ANNO 2° SEMESTRE||
|SISTEMI ELETTRICI E CAMPI ELETTROMAGNETICI||2||ING-IND/09-ENERGY SYSTEMS AND POWER GENERATION||TPALL 2° ANNO 2° SEMESTRE||
|DISEGNO CIVILE E RAPPRESENTAZIONE PROGETTUALE||2||ICAR/17-REPRESENTATION OF ARCHITECTURE||TPALL 2° ANNO 2° SEMESTRE||
|TECNICHE DI VALUTAZIONE E GESTIONE DEI RISCHI IGIENICO SANITARI||1||MED/50-APPLIED MEDICAL TECHNOLOGY AND METHODOLOGY||TPALL 2° ANNO 2° SEMESTRE||
The proposed course consists of four modules belonging to the engineering and environmental sciences. The objectives of the course are very articulated. However, will be aimed at assessing the impact of various technologies may have on the welfare of people in theworking spaces with particular regard to the evaluation of health care risk.
Regarding the study pertaining the electrical systems, it will be evaluated in particular the potential and the risks due to the presence of electromagnetic fields on the work space and the presence of electrical devices.
In relation to industrial areas, module 3 will expand these concepts to the sectors related to the temperature and humidity being and sound in various workplaces. specific purpose of the module is to provide a set of tools, also related to current regulations, by which the student can make some assessments to determine whether the conditions, suitable to a given working environment, meets the requirements imposed by applicable regulations and/or which listings can be done to reach within a define working space the optimal conditions.
Some of these concepts will be oriented to specific assessments of the environmental risks in the module 4 program that aims at detailing several analysis pertaining the environmental monitoring of specific cases such as: assessment and management of risks associated with swimming facilities and problems associated with the presence of Legionella, the presence of pesticides and asbestos in the environment and the impact that these substances can have in determining critical conditions in relation to the activities working.
In the course of the module 2 it will be provide to the student some descriptive methodologies to properly assess the gestion / distribution of space in the work space as well as some general technical design concepts: study of the basics of graphic language to learn, to read and interpret a technical drawing in the civil and industrial sector. Learn how to use 2D CAD tools to perform simple drawings in the civil and industrial sector.
Detailed programm of each module
Module n°1: electrical and electromagnetic systems
REVIEW OF ELECTROMAGNETIC FIELDS
The electric charges. The electric field and electric currents.The magnetic field. Brief references to Maxwell's equations and their meaning. The electromagnetic field. energy properties of electromagnetic fields.
APPLICATIONS OF ELECTROMAGNETIC FIELDS IN THE ELECTRICAL SYSTEMS
Lumped components. Resistors, capacitors, inductors and their property. Power grids and their properties. steady state and variable arrangements of components and electrical networks. periodic quantities, magnitudes and alternating harmonic magnitudes. Behavior of components and electrical networks in harmonic regime. Outlines the procedures for analysis of electrical networks.
MEASURES OF ELECTROMAGNETIC FIELDS
Measurements of electric field. magnetic field measurements. Measurements of radiation fields. polarized isotropic probes and probes. Technical broadband measurement. Technical narrow band measurement.
RULES FOR EXPOSURE TO ELECTROMAGNETIC FIELDS
Human exposure standards. workers' exposure standards.
Measuring experimental exercises of electromagnetic fields wide and narrow band. Sample analysis activities of electromagnetic impact produced by a fixed system for mobile telephony.
Module n°2:Civil and Industrial Design
Introduction. Sheet size. Box of entries. representation scales. Line types used in the drawing. Using lines in civil drawings and industrial designs. Introduction to sections and cuts. Section Convention. For the representation of materials in sections. Dimensioning. dimensioning systems. Project elaborated: views, floor plans, elevations and sections in civil drawings. Regulatory and technical rules applied to residential settings. Application examples of D.M. July 5, 1975 (surfaces calculating profits, RAI, etc.). Patterns of technological systems in buildings (electricity, plumbing, heating, ventilation). Symbology required by regulations. Industrial installations.
examples of applications in the construction and industrial sectors. Introduction to 2D CAD graphical interface, reference frames, snap, main commands for creating geometric entities. Editing commands. Sections and background paintings (screens). Management of line styles. Creating and using layers. Dimensioning. Inserting notes. Text Styles. The concept of blocks. Creating and inserting blocks. external libraries. Printing a drawing, paper space, print formats, print styles, printing scales.
Module n° 3:Environmental and Technical Physics
Fundamental thermodynamic quantities: internal energy of a system, enthalpy and mass and energy balances; vapor pressure, relative humidity and a specific humidity of the moist air flow. Basics of heat transfer: heat transfer by convection and radiation; actual temperature and perceived temperature. fundamentals of mass transfer: an expression of concentration and the molar quantities, mass flow and interaction between mass and energy flow; Evaporative flows. Parameters defining the well-being temperature and humidity in the environment with particular emphasis on the workplace: temperature, air velocity, surface temperature. Evaluation of the main parameters related to the thermo-hygrometric exchanges of the human body and the corresponding thermohygrometric budget. Analysis of the main statistical parameters related to the sensitivity of the human body in relation to environmental conditions: PMV index (Predicted Mean Vote), actual temperature and the ET index. of local discomfort indexes of air and acceptability criteria at the workplace. The visibility factor and the main photometric: luminous flux, luminance and illuminance: their interpretation in relation to healthy sight indexes. Analysis of the main parameters that influence the acoustic comfort conditions in the environments: Decibel stairs, Octave Bands and interpretation of these parameters in relation to noise (noise) in the workplace. noise control.
Module n° 4:Technical Prevention and Public Hygiene and Territorial Support
Assessment and management of risks associated with swimming facilities Examination of the industry rules (scope, definitions, differences between the various regional / provincial regulations) with in-depth evaluation of the structural requirements needed for successful implementation of this type of plant. The building blocks of a swimming facility; illustration of the operation of the various components and possible critical issues encountered in structural and managerial level. The main risks associated with swimming facilities: physical, chemical and microbiological. The main strategies for the reduction and control and risk management.
The requirements of the self-control system and the minimum content in the constituent documents the same or related to it. practical examples and guided compilation of some of the documents described. The official sampling. The official control.
Assessment and management of risks associated with the presence of Legionella
Description of the bacterium and mention of the main problems to health associated with the same. The conditions and factors that promote the survival and proliferation of the pathogen. Examination of the industry rules (scope, definitions, limits) Identification of particular risk facilities: hospitals, nursing homes, hotels. The main settlement and development sites: description of the types of plants that can be colonized by legionella, their distinctive features and how they work. The main strategies for the reduction and control and risk management. The requirements of the self-control system and the minimum content in the constituent documents the same or related to it. practical examples and guided compilation of some of the documents described. The notification system.
The main features and critical for the health.
The risks for the population: evaluation of possible strategies, procedural constraints, technical limitations and open issues.
The different modes of dispersal of plant protection - presentation of the results of some studies carried out in the field.
The proposals for the creation of models that can be used for risk assessment: Background.
The main features and critical for the health.
Examination of the rules on the presence of such material in environments other than work (scope, definitions, limits).
The risk assessment as a self-regulation tool, and protection of health: comparing methods.
The examination procedures will be illustrated by each teacher at the beginning of the course. With reference to what has been proposed during the previous editions of the course, for each of the modules a written test has been selected, This includes some exercises on topics developed and analysed in the classroom and, at the same time, oral questions. Regarding the Civil and Industrial Design, it may be required to carry out a planning part to be agreed with the teacher.
|Yunus a Cengel, Giuliano Dall'O, Luca Sarto||Fisica Tecnica Ambientale||Mc GRAW-Hill||2017|
|Francesco Gherardini||Dispense fornite dal docente|
|Tecniche della prevenzione in igiene pubblica e assistenza territoriale||Agli studenti viene richiesto lo studio del materiale presentato durante le lezioni e commentato durante le esercitazioni in aula||2017|