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Competencies

  • Appropriately using computing methods and tools, justified from a theoretical viewpoint and duly tested, for the appropriate measuring of energy facilities.
  • Having thorough knowledge of the state of the art in international research into energy efficiency in construction and its application to specific research areas in the sector in that environment.
  • Having thorough knowledge of the state of the art in international research into energy efficiency in urban planning and its application to specific research areas in the sector in that environment.
  • Having thorough knowledge of the state of the art in international research on energy efficiency transport and its application to specific research areas in the sector in that environment.
  • Having thorough knowledge of the state of the art in international research on industrial energy efficiency and its application to specific research areas in the sector in that environment.
  • Having thorough, critical knowledge of the current regional, national and European legislation related to energy efficiency in urban planning.
  • Having thorough, critical knowledge of the current regional, national and European legislation relating to energy efficiency in construction.
  • Having thorough, critical knowledge of the current regional, national and European legislation relating to energy efficiency in transport.
  • Having thorough, critical knowledge of the current regional, national and European legislation relating to energy efficiency with the current methods of energy production in industry.
  • Knowing how to properly interpret the meaning of sustainability applied to the construction energy sector, evaluate its environmental impact and suggest new research areas in order to resolve efficiency problems in complex construction energy systems.
  • Knowing how to properly interpret the meaning of sustainability applied to the energy sector in urban planning, evaluate its environmental impact and suggest new research areas in order to resolve efficiency problems in complex energy systems related to urban planning.
  • Knowing how to properly interpret the meaning of sustainability applied to the energy sector, assess its environmental impact and suggest efficient improvement solutions.
  • Knowing how to properly interpret the meaning of sustainability applied to the transport energy sector, assess its environmental impact and suggest new research areas in order to resolve efficiency problems in complex energy systems related to transport.
  • Knowing how to properly interpret the meaning of sustainability in the industrial energy sector, assess its environmental impact and suggest new research areas in order to resolve efficiency problems in complex energy systems in industry.
  • Mastering advanced theoretical concepts on the exchange of mass and energy and on fluid dynamics, which constitute an extension of the basic education received at undergraduate level.
  • Obtaining a scientific and technological vision of the current energy production methods and their environmental problems.
  • Using working methodologies characterised by environmental concern.

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