AIMS AND CONTENT

LEARNING OUTCOMES

In the first part of the course provides basic knowledge on applied thermodynamics. Introduced the first and second law of thermodynamics, thermodynamic diagrams for gases and vapors; direct and inverse thermodynamic cycles; .principles of air conditioning.

AIMS AND LEARNING OUTCOMES

On the basis of the objectives indicated above, at the end of the module the student will be able to operate on thermodynamic cycles critically, representing them on the classical diagrams and he will also be able to evaluate and compare the various system solutions and the consequent energy performance.

These objectives will be achieved with theoretical lessons combined with numerical applications carried out during the exercises and the latter representing engineering scenarios present in the activity of the mechanical engineer.

From the hierarchical point of view learning starting from a scale of basic complexity (remembering, understanding) and it will move towards higher complexities such as solving, judging and proposing engineering solutions.

TEACHING METHODS

Lectures and Practice

SYLLABUS/CONTENT

First part: Thermodynamics: 1st and 2nd  law of thermodynamics open or closed systems (volume control). Energy conversion processes direct and inverse. Refrigeration equipment.
One-dimensional thermal fluid dynamics: Bernoulli's equation. Fluid flow in pipes: calculation of pressure drops, and Moody diagram. Thermodynamics of moist air: psychrometric quantities. Principles of psychrometrics. Psychrometric charts (Mollier - Carrier). Psychometric transformations. Measure relative humidity. The place conditioning in summer and winter. Compressible fluids flow. Hunoniot equation. flow in convergent-divergent

RECOMMENDED READING/BIBLIOGRAPHY

TESTI DI RIFERIMENTO

C.   Bonacina,  A.  Cavallini  e  L.  Mattarolo,  Termodinamica  Applicata, CLEUP Padova 1988.

Y. Cengel, Termodinamica e Trasmissione del Calore, McGraw-Hill

G. Guglielmini, E. Nannei, C. Pisoni, Problemi di Termodinamica tecnica e Trasmissione del calore, Ed. Ecig, 1985.

M.J. Moran, H.N. Shapiro, B.R. Munson, D.P.DeWitt: Elementi di Fisica Tecnica per l’ingegneria, McGraw-Hill

M. Misale, Schede del corso di Fisica Tecnica – Modulo Termodinamica applicate (Disponibili su AulaWeb)  

Testi di consultazione

M.J.  Moran  and  H.N.  Shapiro,  Fundamentals  of  Engineering  Thermodynamics, John Wiley & sons, 1988.

TEACHERS AND EXAM BOARD

Exam Board

MARIO MISALE (President)

VINCENZO BIANCO

MARCO FOSSA

ANNALISA MARCHITTO

LUCA ANTONIO TAGLIAFICO

GIOVANNI TANDA

LUCA ANTONIO TAGLIAFICO (President)

ANNALISA MARCHITTO

FEDERICO SCARPA

GIOVANNI TANDA

LESSONS

Class schedule

The timetable for this course is available here: Portale EasyAcademy

EXAMS

EXAM DESCRIPTION

written and oral

ASSESSMENT METHODS

written and oral

Exam schedule