Programa de simultaneidad del Grado en Ingeniería Mecánica y el Grado en Ingeniería Naval y Oceánica

2020/2021 · 328.5 credits

What you learn

Grado en Ingeniería Mecánica Los ámbitos donde el Ingeniero Mecánico tendrá competencias para redactar, firmar y desarrollar proyectos son en el diseño de máquinas, los procesos de fabricación y en la construcción industrial.

Grado en Ingeniería Naval y Oceánica Proporciona conocimientos científicos y tecnológicos para diseñar, construir, reparar e inspeccionar los andenes de los buques, artefactos oceánicos e instalaciones marinas o industriales de su competencia, así como todos los cálculos relacionados con la arquitectura naval, los sistemas de propulsión y el resto de sistemas auxiliares y equipos del buque.

Professional and academic career

Professional environment

Con el programa de simultaneidad se obtienen las competencias profesionales de los dos grados.

Grado en Ingeniería Mecánica Habilita para la profesión regulada de ingeniero técnico industrial (orden ministerial CIN/351/2009) con las atribuciones profesionales del actual Ingeniero Técnico Industrial especialidad Mecánica. Este grado da acceso al Máster en Ingeniería Industrial que habilita para esa profesión regulada.

Grado en Ingeniería Naval y Oceánica Habilita para la profesión regulada de ingeniero técnico naval (orden ministerial CIN/350/2009) con las atribuciones profesionales del actual Ingeniero Técnico Naval, tanto en la especialidad en Estructuras Marinas como en la de Propulsión y Servicios del Buque. Este grado da acceso al Máster en Ingeniería Naval y Oceánica que habilita para esa profesión regulada.

Professional and academic career

  • Análisis, diseño y ensayo de máquinas, motores y sistemas mecánicos, en general
  • Sector automovilístico
  • Astilleros, compañías navieras, sociedades de clasificación
  • Desarrollo de sistemas robotizados
  • Industria auxiliar de construcción naval, fabricantes de motores y turbinas.
  • Sistemas de fabricación. Técnicas de fabricación y organización de la producción.
  • Proyecto y construcción de fábricas y plantas industriales.
  • Ingeniería estructural.
  • Ingeniería de instalaciones industriales y para la edificación
  • Ingeniería de mantenimiento
  • Ingeniería de transporte
  • Puertos, explotación de recursos marinos, industria offshore
  • Gestión y organización de empresas
  • Participación en proyectos multidisciplinares
  • Participación en proyectos de investigación

Companies and institutions involved

La EPS dispone de más de 200 convenios firmados con empresas de todos los sectores industriales, de las cuales las más relevantes son:

  • Inditex
  • Navantia
  • Reganosa
  • Ghenova Ingeniería,S.L
  • Astilleros Armon,S.A
  • Televés,S.A
  • Pérez Torres Marítima,S.L
  • Peugeot Citröen Automóviles España,S.A
  • Naturgy
  • Hijos de Rivera,S.A.U (Estrella Galicia)
  • Schneider Electric España,S.L
  • Endesa
  • Ferrovial
  • Tecnalia Research&Innovation
  • Construcciones Navales Freire,S.A
  • Cuest Global

Planning for teaching

Study structure

The degrees are organized by courses. Click on a academic year for more information.

  Guide Type QTR. credits
Mathematics 1 Core 1st 6 ECTS
Physics 1 Core 1st 6 ECTS
Chemistry Core 1st 6 ECTS
Shipbuilding and Ship Propulsion Compulsory 1st 6 ECTS
Statistics Core 1st 6 ECTS
Physics II Core 2nd 6 ECTS
Business Management Core 2nd 6 ECTS
Engineering Drawing Core 2nd 6 ECTS
Mathematics 2 Core 2nd 6 ECTS
Introduction to Computer Science and Programming Core 2nd 6 ECTS
  Guide Type QTR. credits
Diferential Equations Core 1st 6 ECTS
Fundamentals of Electricity Compulsory 1st 6 ECTS
Thermodynamics Compulsory 1st 6 ECTS
Marine Drawing Compulsory 1st 6 ECTS
Mechanics Compulsory 1st 6 ECTS
Materials Science Compulsory 2nd 6 ECTS
Strength of Materials Compulsory 2nd 6 ECTS
Automatic Control Systems Compulsory 2nd 6 ECTS
Fundamentals of Electronic Circuits Compulsory 2nd 6 ECTS
Fluid Mechanisc Compulsory 2nd 6 ECTS
Hydrostatic and Stability Compulsory 2nd 7.5 ECTS
  Guide Type QTR. credits
Environmental Engineering Compulsory 1st 6 ECTS
Heat Transfer Compulsory 1st 4.5 ECTS
Naval Hydrodynamics Compulsory 1st 7.5 ECTS
Marine Structures 1 Compulsory 1st 6 ECTS
Ship and offshore design 1 Compulsory 1st 7.5 ECTS
Theory of Machines Compulsory 2nd 6 ECTS
Marine Structures 2 Compulsory 2nd 6 ECTS
Marine Propulsion Systems 1 Compulsory 2nd 6 ECTS
Ship Auxiliary Systems 1 Compulsory 2nd 6 ECTS
Hydraulic and Pneumatic Systems Compulsory 2nd 6 ECTS
Manufacturing and Assembly Processes Compulsory 2nd 6 ECTS
  Guide Type QTR. credits
Industrial Management Compulsory 1st 6 ECTS
Machine Design Compulsory 1st 6 ECTS
Materials Engineering Compulsory 1st 6 ECTS
Design of Industrial Buildings I Compulsory 1st 6 ECTS
FEM of Structures Optional 1st 6 ECTS
Tecnology and Design of Structures Optional 1st 6 ECTS
Welding Optional 1st 6 ECTS
Machine Components Optional 1st 6 ECTS
Actuators and Sensors Optional 1st 6 ECTS
Hydraulic and Neumatic Control Systems Optional 1st 6 ECTS
Capstone Design I Optional 1st 6 ECTS
Marine Propulsion Systems 2 Compulsory 1st 6 ECTS
Theory of Structures Compulsory 2nd 6 ECTS
Engineering Metrology and Quality Control Compulsory 2nd 6 ECTS
Computer Aided Desing and Analysis Compulsory 2nd 6 ECTS
Vehicle Dynamics Optional 2nd 6 ECTS
Theory of Vibration Optional 2nd 6 ECTS
Structural Typologies Optional 2nd 6 ECTS
Design of Industrial Buildings II Optional 2nd 6 ECTS
Maintenance Engineering Optional 2nd 6 ECTS
Failure Analysis in Materials Optional 2nd 6 ECTS
Capstone Design II Optional 2nd 6 ECTS
Marine Transport Compulsory 2nd 6 ECTS
Technical Visits Optional 2nd 4.5 ECTS
  Guide Type QTR. credits
Project Management Compulsory 1st 6 ECTS
Shipbuilding Technology Compulsory 1st 7.5 ECTS
Ship Noise and Vibrations Compulsory 1st 4.5 ECTS
Ship Auxiliary Systems 2 Compulsory 1st 6 ECTS
Electrical and Electronic Systems Compulsory 1st 6 ECTS
Final Year Dissertation Compulsory 2nd 12 ECTS
Ship and Offshore Design 2 Compulsory 2nd 6 ECTS
Final Year Dissertation Compulsory 2nd 13.5 ECTS

Teachers

The study is taught by teachers from the departments of: Architectural, Civil and Aeronautical Buildings and Structures, Business, Chemistry, Civil Engineering, Computer Engineering, Computer Science and Information Technologies, Industrial Engineering, Mathematics, Nautical Sciences and Marine Engineering, Naval and Industrial Engineering and Physics and Earth Sciences

The degrees are organized by courses. Click on a academic year for more information.

Student mobility

UDC holds student mobility agreements with universities and other third-level institutions across four continents. Students are offered several opportunities each year to apply to study abroad in one of these centres (for a single term or for a whole year), with the guarantee that all credits obtained will be duly recognised in their academic record upon their return.

For each round of applications, the University publishes the list of exchange options available to students and, where relevant, the specific conditions associated with each. Students may also apply to the University for funding for international work experience placements and internships.

Work experience placements are accredited in the student's academic record and the European diploma supplement. Students are free to decide in which host company or academic institution within the EHEA they wish to carry out their placement. To assist them in their search, the University has created an online noticeboard with jobs postings and other news.

Work-study placements in A Coruña are arranged by the International Relations Office (ORI) of the UDC in collaboration with the international relations coordinators in the student’s home university. The general entry criteria, rights and obligations of students, and admission and acceptance procedures for the programme, are regulated by the UDC Mobility Policy.