|SCIENTIFIC DISCIPLINARY SECTOR
This course provides the basics of Fire Safety Engineering
AIMS AND CONTENT
The aim of the course is to provide the basis for fire-fighting design criteria in harmony with the criteria of the performance design - Fire Safety Engineering. Particular attention will be devoted to the definition and analysis of the development of fire scenarios. These topics are the prerequisites to the final study of the protection of occupants from the effects of the propagation of harmful effluents (Smoke), with specific software.
AIMS AND LEARNING OUTCOMES
Students will learn the basics of fire safety analysis and they will use them to develop a short FSE project in a simple fire scenario, using fire simulation software, such as CFast and FDS.
Attending to the lectures and to the seminar/tutorial hours the students develop the ability of analysing a simple reference case, defining a proper fire scenario, carrying out the simplifications necessary to proceed with the solution, setting up proper performance level and evaluate the capability of meeting the design criteria, using software like CFAST or FDS
Lectures (65%) and seminar/classroom activity (35%)
Methodology for the performance based approach in design building for fire safety.
Introduction to the concept of performance criteria, with reference to Italian and European rules as well as to SFPE Engineering guide to performance-based fire protection
Qualitative description of combustion, and combustion thermochemistry, short notes on pyrolysis, properties of fuels, combustion products, chemical equilibria of combustion reactions and CO production.
Qualitative description first item ignition and propagation.
Transient conduction: thin body, semi-infinite solid body and applications, natural convection, Navier Stokes, models for solution of N.S. eq.: zone models, field models
Simplification for the definition of fire scenarios:
Description of models for flame parameterization and radiant load estimation, Definition of fire and project fire scenarios. HRR, smoke production, calculation of temperature in a closed compartment,
time to flashover, area affected by the fire.
Life safety: occupant behavior, location and condition (ISO SS5)
Methodology and Definitions
Factional Effective Dose concept
Calculation of the ASET:
Calculation of the RSET:
strategies, behavioral scenarios, parameters, analytical and numerical models of evacuation
Detection and suppression
Numerical simulation with CFAST and FDS
SGSA, Fire Safety Management System
NIST Special Publication 1019, Sixth Edition, Fire Dynamics Simulator User’s Guide, Kevin Mc Grattan, Simo Hostikka, Jason Floyd, Randall McDermott, Marcos Vanella, http://dx.doi.org/10.6028/NIST.SP.1019
NIST Technical Note 1889v2, CFAST – Consolidated Model of Fire Growth and Smoke Transport (Version 7), Vol.2: User’s Guide, Richard D. Peacock, Paul A. Reneke, Glenn P. Forney, This publication is available free of charge from: http://dx.doi.org/10.6028/NIST.TN.1889v2
TEACHERS AND EXAM BOARD
Ricevimento: Wednesday 12-13 Please conctact Francesco Devia by e-mail: email@example.com
FRANCESCO DEVIA (President)
EMANUELE GISSI (President Substitute)
L'orario di tutti gli insegnamenti è consultabile all'indirizzo EasyAcademy.
The oral examination consists in the discussion of a small project of Fire Safety Engineering, prapared by students.
Students with SLD, disability or other regularly certified special educational needs are advised to contact the instructor at the beginning of the course to agree on teaching and examination methods that, in compliance with the course objectives, take into account the individual learning requirements.
The assessment of students' skill is based on their capability of explain and sustain the choices they made, in the redaction of the FSE project