Teacher
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SCUNGIO Mauro
(syllabus)
1. Introduction, basic definitions; 2. Mass conservation principle; 3. First law of thermodynamics; 4. Second law of thermodynamics; 5. Gibbs equations, expansion work, mechanical energy equation, p-v and T-s diagrams, thermal irreversibility; 6. Thermodynamic states: p-T, p-v, T-s, h-s and p-h diagrams, ideal gas, incompressible liquid; 7. Ideal adiabatic transformation, polytropic transformation, superheated steam, biphasic liquid-aerial mixture; 8. Direct thermodynamic cycles: Carnot, Otto, Diesel, Joule, Rankine; 9. Reverse thermodynamic cycles: Carnot, Rankine; 10. Moist air: enthalpy, specific volume, specific and relative humidity, dew temperature, dry bulb and wet bulb temperatures, adiabatic saturation temperature; 11. Moist air: psychrometric diagram, simple cooling and heating, adiabatic mixing, cooling and dehumidification, heating and humidification, adiabatic humidification.
(reference books)
Main: A. Cesarano, P. Mazzei, Elementi di Termodinamica Applicata, Liguori L. Bellia, P. Mazzei, F. Minichiello, Aria umida. Climatizzazione ed involucro edilizio. Teoria, applicazione e software, Liguori Others: Y. Cengel, Termodinamica e Trasmissione del Calore, McGraw-Hill P. Brunello, Lezioni di Fisica Tecnica, EdiSES P. Mazzei, R. Vanoli, Fondamenti di Termodinamica, Liguori M.A. Cucumo, V. Marinelli, Termodinamica applicata, Pitagora G. Moncada Lo Giudice, Termodinamica applicata, Casa Editrice Ambrosiana
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