Competences

At the end of their training period, the graduate in the Master will have acquired the following specific professional skills:

• Know and manage bibliographic management systems to support research and scientific publication methodologies.
• Know the aspects related to methodology and scientific-technological innovation and technology transfer.
• Know the techniques for monitoring and instrumentation of experiments in the field of industrial technologies.
• Know and apply optimization methods in the field of engineering.
• Knowing numerical modeling methods (finite elements, etc.), as well as being capable of their computational implementation in the field of industrial technologies.
• Know the characterization and application of composite and advanced materials.
• Know the characterization of solid materials through advanced instrumentation.
• Know and apply the fundamentals of fluid-dynamics and analysis of the behavior of compressible fluid.
• Know the treatment of data from statistical methods and design of experiments for research in the field of industrial technologies.
• Analyze, model and test in tasks of experimentation, research, development or innovation in fields related to biomechanics, biomaterials and biofabrication.
• Understand how knowledge of advanced manufacturing processes is integrated into the development cycle of a product. Analyze how the degree of flexibility of these technologies opens up new possibilities by fostering creativity, improving productivity and increasing quality.
• Acquire advanced knowledge of corrosion problems in metallic materials.
• Know heterogeneous photocatalysis and its environmental applications.
• Know how to analyze and design the use of renewable energies both at the level of isolated / interconnected micro-grids as well as their impact on the integration, on a large scale, in electrical power systems.
• Know and use modeling and simulation methods of wind energy conversion systems, in addition to possessing and understanding knowledge in the field of this technology, identifying lines of research likely to form the basis of work for the completion of the doctoral thesis.
• Know the use of renewable energies in desalination and water purification processes.
• Know and use the fundamentals of electrochemistry in the field of the production of substances, the electrolytic coating of materials, and the conversion and storage of energy by electrochemical means. Bases for identifying different electrochemical methods.
• Carry out, present and defend, once all the credits of the study plan have been obtained, an original and individual exercise before a university tribunal, consisting of a project or integral work in which the competences acquired in the teachings are synthesized. You will be able to focus on any of the topics of the master’s degree and / or its possible applications and related to your lines of research.