# SUBJECT Thermodynamics COMPETENCIAS/DESCRIPCION ...

Mechanics

Oct 27, 2013 (4 years and 8 months ago)

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SUBJECT
Thermodynamics
COMPETENCIAS/DESCRIPCION/OBJETIVOS
The course focuses on fundamental concepts related to the basic principles of thermodynamics and heat transfer required
for the formation of MECHANICAL ENGINEERING DEGREE (Grado en Tecnología Industrial). We study the first and
second laws of thermodynamics for closed systems and for control volumes. Thermodynamic relations derived from them
are studied. Furthermore we analyze the properties of pure substances and thermodynamic models of industrial interest.
The concept of entropy is also introduced.
This is a compulsory subject inside the degree which covers the basic principles and their application to solving
engineering problems related to applied thermodynamics and general heat transfer problems.
The subject is vertically coordinated to the subject HEAT TRANSFER (Named TERMOTECNIA in Spanish) of 3rd year
inside the degree. Both subjects constitute the base for the speciality and further Master related to energetic.
TEMARIO
CHAPTER 1 - INTRODUCTORY CONCEPTS AND DEFINITIONS
Brief history of the development of thermodynamics. Classical thermodynamics and other formulations. Thermodynamic
system. The state of a system and state of thermodynamic equilibrium. Thermodynamic variables. Types of variables.
Thermodynamic processes. Types of processes.
CHAPTER 2 - PvT RELATION OF PURE SUBSTANCES
PvT relation of an ideal gas. PvT relation of a real substance. Vapor pressure. Wet vapor and title. Thermal coefficients.
Critical point and triple point. Some state equations, compressibility factor and generalized compressibility factor chart.
CHAPTER 3 - FIRST LAW OF THERMODYNAMICS
The work in thermodynamics. Different types of work. Energy of a system. Heat energy transport. The energy balance in
closed systems. Examples of application. State energy equation. Energy coefficients. Polytropic processes.
CHAPTER 4 - CONTROL VOLUME ANALYSIS USING ENERGY
Concept of control volume. Mass balance in a control volume. Energy balance in a control volume. Steady state and
transient analysis. Various application examples.
CHAPTER 5 - THE SECOND LAW OF THERMODYNAMICS
Limitations of the First Principle. Formulation of the second law. Reversible and irreversible processes. Carnot cycle and
Carnot theorems. Definition of entropy. Entropy flow and entropy creation. Entropy balance for closed systems. Entropy
balance for control volumes. Isentropic processes and isentropic efficiencies. Application Examples.
CHAPTER 6 - THERMODYNAMIC RELATIONS
Relations between thermodynamic variables. Calculation of changes in internal energy, enthalpy and entropy. The method
of the variable residue. Generalized charts for enthalpy and entropy. Introduction to the study of multicomponent systems.
Case study: mixtures of ideal gases.
TIPOS DE DOCENCIA
EVALUACION

Aclaraciones :
6
Créditos ECTS :
Plan
Ciclo
Curso
Centro
GUÍA DOCENTE
2012/13
345 - Faculty of Engineering of Bilbao
GITECI30 - Bachelor`s Degree in Industrial Technology Engineering
Indiferente
Second year
Leyenda:
M: Magistral
S: Seminario
GA: P. de Aula
GL: P. Laboratorio
GCL: P. Clínicas
TA: Taller
TI: Taller Ind.
GCA: P. de Campo
M
S
GA
GL
GO
GCL
TA
TI
GCA
37,5 15 7,5
56,25 22,5 11,25
Tipo de Docencia
Horas de Docencia Presencial
Horas de Actividad No Presencial del Alumno
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- Examen escrito a desarrollar
- Realización de prácticas (ejercicios, casos o problemas)
- Trabajos en grupo
The laboratory practices will be 20% of the final grade.
Classroom practices are assessed continuously with various exercises throughout the course and its value is 15% of the
The final exam, theory and problems, will be 65% of the final grade.
IMPORTANT: IN THE FINAL EXAM A MINIMUM OF 50% MUST BE OBTAINED TO PASS THE LECTURE.
BIBLIOGRAFIA
-M. J. Moran H.N. Shapiro, Fundamentals of Engineering Thermodynamics, 7th edition, Wiley, 2011.

Aclaraciones :
Bibliografía básica
Direcciones de internet de interés
Thermodynamic properties tables and charts.
-J.M. Sala, F. Jiménez , Termodinámica , Servicio Publicaciones E.T.S.I.I. De Bilbao, 1.996
-J.M. Sala, L. López, F. Jiménez, V De La Peña, J.J. Eguia, Ampliación Termodinámica, Servicio De Publicaciones De La
E.T.S.I.I. De Bilbao, 1.998.
-R. Wark, Thermodynamics, Mcgraw-Hill
-C. Mataix, Termodinámica Técnica Y Máquinas Térmicas, De. Ecaci, 1.978.
Bibliografía de profundización

Revistas
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