Basic Competences:
· Be original in the development and application of ideas, within a research environment. (CB6)
· Solution of problem in new and unfamiliar multidisciplinary environments, related to its knowledge area. (CB7)
· Integration of knowledge, facing the complexity of issuing judgments and sentences parting from some information that includes ethic and social liability constraints. (CB8)
· Ability of communicating justified decisions and conclusions, to specialized and unspecialized listeners. (CB9)
· Ability of autonomous learning. (CB10)
Generic Competences:
· Writing, communicating and presenting scientific documents to specialists, within the scope of the contents of the Master Degree (electric power systems, hybrid and electrical vehicles and renewable energies) (CG1)
· Use of computers and digital processors in the analysis, design, simulation, monitoring, control and supervision of power systems. (CG4)
· Technical design aspects that depend on strategic, socio-politic, economic and environmental concerns (DG8)
· Skills related to teamwork, recognizing different roles within a group and different ways of organizing research teams. (CG9)
· Ability to manage information: search, analysis and synthesis of the specific technical information. (CG10)
· Ability to assimilate and communicate information in English concerning technical (CG11)
· Ability to plan and organize work (CG12)
· Skills for critical reasoning, making decisions and making judgments based on information that include reflecting on social and ethical responsibilities of professional activity (CG13)
· Concern forquality and achievement motivation (CG14)
Specific Competences:
· Technical-economical-environmental regulations and directives in different scopes (local, regional, national, European, etc.), which are applied to power systems (CE17)
· Identify and locate the different world geopolitical regions and describe their main economic relationships in relation to primary energy sources (CE18)
· Knowledge and analysis of the energetic structures and technologies necessary, considering multiple aspects as the requirements, expected technical evolution, efficiency, security, sustainable development concerns, environmental and service guaranteeing issues (CE19)
Learning Outcomes:
· To identify and locate the different geopolitical world regions, describing their main economic relationships in relation to primary energy sources. (RA91)
· To recognize energy structures and technologies which ensure the coverage of demand both globally and in Spain, and to analyze future energy needs and possible technology solutions. (RA92)
· To describe and compare the energy policies of the European Union, Spain with those of other developed countries. (RA93)
· To infer applications for efficiency, safety and service guarantee of the various energy strategies for generation and supply, taking into account environmental applications. (RA94)
· To describe and criticize the various policies to support renewable energies in Spain and in the European Union. (RA95)
· To identify the main policies to support research and development of energy sector in Spain and the European Union. (RA96)
To recognize the main policies that define the energy policy of the European Union (RA97)
· Sorting of the different Spanish regulations governing the electricity sector. (RA98)
· To describe and assess the main features that define the electricity sector regulation and related directives involved in the management of transport and distribution of electricity. (RA99)
· To identify the key regulatory features involved in the regulation of activities associated with the provision and management of primary energy, oil and natural gas. (RA100)
· Describe the different types of electric and gas markets in Spain and their relationship to the European markets. (RA101)