The aim of this subject is to train future graduates in Bachelor Degree in Mechanical Engineering with the ability to apply the principles of Thermodynamics and Heat Transfer required in almost all industrial processes and domestic installations. The knowledge of these principles is basic in Thermal Engineering, for instance, to carry out an energy analysis (determining the energy and exergy efficiency) of power systems for electricity generation (combined cycle with steam and gas turbine), a mechanical power cycle, a heat pump cycle, etc. The knowledge of whether a thermodynamic process can occur in reality is essential for the design of new processes, as well as the knowledge of the maximum benefits that can be obtained by the different devices present in an energy installation, and the causes hindering those maximum benefits. Furthermore, the study of the thermodynamic properties of the working fluids that circulate through the devices, water, air, refrigerants, gases and gas mixtures, is essential to analyse the behaviour of thermal systems. Likewise, studying the procedure needed for the energy analysis of refrigeration, air conditioning and in combustion processes is of great interest.
On the other hand, it is essential for students to know the heat transfer mechanisms, focusing on determining the way and rate of the energy exchanged. Thus, at the end of the course, students are expected to be able to properly state and solve heat transfer engineering problems and to perform a basic design of heat exchangers.