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Resolution Of April 15, 2015, Of The University Of Seville, Which Publishes Modification Of The Curriculum Of Graduate In Engineering Of Industrial Technologies.

Original Language Title: Resolución de 15 de abril de 2015, de la Universidad de Sevilla, por la que se publica la modificación del plan de estudios de Graduado en Ingeniería de Tecnologías Industriales.

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TEXT

Pursuant to Articles 26 and 28 of Royal Decree 1393/2007 of 29 October, as amended by Royal Decree 861/2010 of 2 July 2010 laying down the procedure for the modification of plans of studies already verified and once received favorable report of the Agency of the Knowledge of July 11, 2014 to the modifications presented of the plan of studies of the degree of Graduate/Graduate in Engineering of Industrial Technologies by the University of Seville.

This Rectorate, in accordance with the provisions of Article 26.3 of Royal Decree 1393/2007 cited above, has resolved to order the publication of the amendment of the curriculum of the Graduate/Graduate degree in Industrial Technologies Engineering by the University of Seville, which is structured as set out in the Annex to this Resolution.

Sevilla, April 15, 2015.-El Rector, Antonio Ramirez de Arellano Lopez.

ANNEX

Graduate Studies Plan in Industrial Technologies Engineering by the University of Seville

Mention in machine-machines.

Mention in Mechanics-Construction.

Mention in Materials.

Mention in Industrial Chemistry.

Mention in Energy.

Mention in Electricity.

Mention in Electronics.

Mention in Automatic.

Mention in Organization and Production.

Knowledge Branch: Engineering and Architecture

Partitioning Centers: Higher Technical School of Engineering

Distribution of the curriculum in ECTS credits by type of subject

Type of matter

Credits

F

Basic Training

60

O

Required

88.5

P

Optives

79.5

T

Total

Total

12

Total

Ders_table_body"> 240

Structure of the teachings by modules

Mandatory II.

4.50

4.50

4.50

Environment Technologies.

Electric Vehicles.

Perception Systems.

P

P

P

P

P

P

Mention in Industrial Chemistry.

6

Engineering Processes Engineering.

Energy Efficient Management Electrical.

P

Module

Allocate

Character

Basic Training.

Enterprise.

F

6

and Research Operational.

F

Expression.

F

6

F

F

II.

F

6

F

6

F

F

Math II.

F

6

General Chemistry

F

F

7.50

7.50

Extension of Required I.

Extending Physics.

O

6

of Mathematics.

O

4.50

or

Electrical Facilities and Machines.

4.50

O

Common to Industrial Branch.

Electronics General.

O

Science Foundations.

4.50

6

O

O

6

Organization and Business Management.

6

6

O

OR

O

Theory.

O

6

Theory and Mechanisms.

O

6

Termodynamics.

Actions Electrical.

P

6

Electrical.

P

Lines.

P

Electrical.

P

6

Electrical Systems.

P

6

P

Electronics.

P

Renewable Energy Integration.

P

6

and Design of Electrical Installations.

P

4.50

Power Management.

P

instrumentation and Electrical Measures.

P

Systems Modeling and Simulation.

P

P

Mention in Automatic.

Circuit Design and Electronic Systems.

P

6

Power Electronics.

P

P

Control Engineering.

P

6

Instrumentation.

P

6

Automation and Robotics.

P

6

Lab.

P

Robotic.

P

P

Automation Add-ons.

P

Add-ons.

P

4.50

Advanced Robotics.

P

Mention in Electronics.

Electronics Industrial.

P

Energy Integration.

6

6

6

P

Electronics.

P

6

Industrial Computing.

P

P

Robotic.

P

P

6

Engineering.

P

Instrumentation.

P

6

Instrumentation Lab.

P

Advanced Electronic Systems.

P

Technology.

P

Mention in Materials.

Numeric Analysis and Tensions Experimental.

P

Degradation. Non-destructive Trials.

P

6

Fluidomechanical Engineering.

P

Materials.

P

Metal Materials and Array Compositions Metal.

P

6

fracture mechanics.

4.50

P

Obtaining and Recycling Materials.

P

, Ceramics, and Compositions.

P

6

Welding.

P

6

Mention in Mechanics-Construction.

Industrialists.

P

6

Concrete Structures.

6

6

6

P

Geotechnics and Cents.

P

Facilities.

P

6

Project Industrial Plant Integral.

P

and Structures Projects.

P

6

Fluidomechanical Engineering.

P

Analysis Structure Experimental.

P

Computational Methods in Structures.

P

Urbanism and Urban Services.

P

Mention in Mechanics-Machines.

Cinematic and Machine Dynamics Extension.

P

4.50

Bases for Mechanical Systems Design.

P

6

, Design, and Trial of Machines.

P

6

P

P

6

Computer-Assisted Design.

P

P

Manufacturing Technology II.

P

Engineering Fluidomechanics.

P

4.50

4.50

Railways.

P

Metrology.

P

Mention in Organization and Production.

Quality Control.

P

P

Financial Management.

P

>4.50

Tools for Decision Making.

P

6

Logistics.

P

6

Methods Industrial Organization.

P

P

P

4.50

Techniques.

P

P

P

4.50

4.50

Strategic Management and Business Creation.

P

Analysis and Industrial Systems Modeling.

P

Human Factor in Organizations.

P

4.50

P

Industrial and Technology Policy.

P

Management Informatics Systems.

P

4.50

Engineering and Maintenance Management

P

6

Integrated Production Systems.

P

P

P

Experimentation in Chemical Engineering.

P

Heterogeneous Reactors.

P

Simulation and Optimization Chemical Processes.

P

Operations with Solid and Fluid.

P

6

Separation Operations.

P

Control and Instrumentation Chemical Processes.

P

Analysis.

6

>4.50

Reactors.

P

P

P

Engineering.

P

Treatment.

P

gaseous effluent treatment.

P

P

Power Mention.

Analysis Industrial Process Thermodyname.

P

6

Solar Energy.

P

Energy Generation.

P

P

Termic Installations in Editing.

P

6

Alternative Internal Combustion Engines.

P

Systems Power.

P

6

Refrigeration Technology.

6

P

P

P

>4.50

Cogeneration.

P

Installations in Industry.

P

Optives.

Labor Risk Analysis and Prevention.

P

Bioengineering.

P

Domotica.

P

Electronics.

P

4.50

P

Computational Mathematics.

P

.

P

4.50

History and Methodology.

4.50

P

>4.50

on Networks and Telematics Services.

P

4.50

Management Systems.

P

6

P

4.50

Energy Technologies for Distributed Generation.

P

4.50

Center Cross Optives.

Extension of elasticity and Materials Resistance.

P

Design Productive.

P

4.50

Distribution.

P

4.50

P

Productive.

P

Integration of Information.

P

Machines and Thermal Engines.

p

Electronic Systems.

P

P

P

Energy Technology.

P

Theory of Structures.

P

External Practices.

9

End Job

P

Degree End Job.

T

12

Temporary Organization of Study Plan Subjects

Course

O

O

T

Duration

Allocate

Character

Credits

First.

A

Graphic Expression.

F

A

Computer.

F

C1

F

F

F

C1

I.

F

6

C1

Mathematics I.

F

6

C1

Mathematics II.

F

C2

Statistics and Operational Research.

F

C2

Physics II.

F

6

C2

Mathematics III.

F

6

C2

General Chemistry.

F

Second.

A

O

O

C1

O

O

C1

O

O

C1

C1

C1

C1

O

OR

OR

Materials Science Foundations.

O

C1

Circuit Theory.

General Electronics.

C2

Fluid Mechanics Foundations.

O

6

C2

Mathematical Methods.

O

C2

Machine Theory and Mechanisms.

O

6

C2

Termodynamics.

6

C1

4.50

C1

Organization and Business Management.

Manufacturing Technology

6

Heat Transmission

4.50

C1

O

O

Technologies.

O

O

C2

12

A: Annual; C1: 1.er Cuatrimestre; C2: 2. º Cuatrimestre.

Note: According to the title verification memory, the student, before the completion of his studies, must accredit a level of language skills in an equivalent foreign language, at the B1 level of English The European Common Framework of Reference for Languages.