Università Roma Tre

Introduction

Units of Measures

1. HEAT TRANSFERS

1) Conduction
phenomenology of heat transfers; general information on thermal fields; Fourier postulated. Fourier's equation, in Cartesian and cylindrical coordinates, with and without internal heat development. Examples of exact solutions: flatbed and cylindrical layer steady. Sull'adduzione limit signs on faces. The similarity of insulating critical elettrica.Raggio. Example variable regime: periodic regime stabilized in a semi-infinite half

2) Convection
Definition. Natural convection and forced convection. Schematic of the phenomenon. Definition of the heat exchange coefficient. dimensional analysis. Buckingham theorem. Method of indexes. Determination of dimensional characteristics of heat transfer variables. Applications.

3) Irradiation
Kirchhoff's law. Planck's law, Stefan-Boltzmann and Wien. gray bodies. Applications.

4) Complex Phenomena
Heat transfer by adduction. Applications.


2. Applied Thermodynamics

1) Thermodynamic systems
Thermodynamics principles. Temperature. thermodynamic equilibrium. Work in a closed system. Temperature concept.

2) First law
Conversion and energy transformation: the formulation of the first principle. internal energy. Specific heat.

3) Second law
Statements of the second law. Carnot cycle. Carnot's theorem. Thermodynamic temperature scale. Entropy. Reversible and irreversible transformation.


4) thermodynamic cycles
Cycle of the steam turbine (Rankine). Cycle of compression refrigerating machines saturated vapor.

5) Thermodynamics Air
gaseous mixtures. moist air. Absolute and relative humidity. dew point temperature. Enthalpy associated. Mollier diagram. moist air transformation. Psychrometer.
energy exchanges between man and environment. thermal comfort. wellness equations. Thermal comfort indices: actual temperature, PMV, PPD.

6) Quality and air treatment
The air quality in the neighboring environments. Heating equipment (outline) Air-conditioning systems (notes) Air-conditioning systems: all-air systems (notes). mixed systems (notes).


3. APPLIED ACOUSTICS

1) Definition fundamental physical quantities, sound fields and propagation of acoustic waves. Sound sources and their types. Characterization of the stimulus. Scale decibel

2) The auditory organ and psychophysical quantities. Normal Audiogram.

3) Hearing the sounds: Acoustic of a room, the reverberation time, the quality indexes of a room acoustic treatments.

4) Hearing noise: characterization of the phenomenon, the evaluation indices, current legislation.

5) Measurement Methods: description of the used instrumentation and measurement methodologies, current legislation.

4. LIGHTING

1) Definition fundamental physical quantities, basic laws of radiation. Characterization of the stimulus.

2) The visual organ and psychophysical quantities. Photometry and colorimetry principles.

3) Methods of measurement of photometric quantities: description of the used instrumentation and measurement methodologies.

4) Artificial light sources: incandescent lamps, discharge lamps, LEDs

5) Lighting fixtures: features and operation. Photometric curves and their construction.

6) artificial lighting technology: indoor lighting, outdoor lighting. Balance of luminance. Design principles and current legislation.

1. Yunus A. Çengel, “Termodinamica e trasmissione del calore”, McGraw-Hill Education (testo base in versione completa con compendio di Acustica ed Illuminotecnica)
2. Michael Moran et al., “Elementi di Fisica Tecnica per l’Ingegneria”, McGraw-Hill (per consultazione ed approfondimento)
3. Internal Booklet