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14 February 2017
Find out about bachelor's degrees, postgraduate courses and all the educational courses offered by the UdG.
Teaching is concentrated in the faculties and schools, and the departments deal with research, which is also conducted by institutes and chairs, at the same time responsible for knowledge promotion.
Linear algebra, geometry, differential geometry, differential and integral calculation, differential and partial differential equations, numerical methods, numerical algorithms, statistics and optimisation.
General laws of mechanics, thermodynamics, fields and waves and electromagnetism and its application in solving typical engineering problems
General laws of mechanics, thermodynamics, fields and waves and electromagnetism and its application in solving typical engineering problems.
Techniques of graphic representation, spatial conception, normalisation, foundations of industrial design, computer-assisted applications.
Structure of matter.Chemical bonding.Organic chemistry.Inorganic chemistry.
Structure of computers.Programming and operating systems.Databases.Computer programs with application in engineering
Statics, kinematics and dynamics of the rigid solid and fundamental applications to engineering.Kinematic and dynamic analysis of mechanisms and machines.General study of the behaviour of resistant elements.Behaviour of real solids.
Foundations of materials science, and the structure and properties of materials.Study of metallic and ceramic materials, polymers, composites, electrical and magnetic materials, materials for electronics.
Statistics and optimisation
Concept of business.Legal framework of business.General and business economics.Business administration.Production system and industrial organisation
Thermal foundations.Foundations of air conditioning and refrigeration systems.Fluid mechanics.Fluid mechanical systems and their analysis.Facilities for the transfer of energy through fluids.
Circuits.Electrical machines.Components and applications.Electronic components.Analogue electronics.Digital electronics.Industrial automation.Automated systems.Automatic regulation and technology of control.
Statics, kinematics and dynamics of the rigid solid and fundamental applications to engineering.Kinematic and dynamic analysis of mechanisms and machines.General study of the behaviour of resistant elements.Behaviour of real solids.Calculation of machines and basic mechanisms.Calculation of basic structures.
Study of the compounds of the carbon.Organic synthesis.Chemistry of the natural products.Chemical thermodynamics and kinetics.Physical and chemical equilibria.Electrochemistry and surface chemistry
Study in carbon compounds.Organic synthesis.Chemistry of the natural products.Chemical thermodynamics and kinetics.Physical and chemical equilibria.Electrochemistry and surface chemistry
Chemical equilibrium.Analysis methodologies.Instrumental analysis techniquesIntegrated laboratory on analytical methods.Physicochemical properties and the synthesis of organic and inorganic substances.Quality assurance.
Direction of operations.Tactical production decisions: production planning (at the level of master plan, MRP I&II and plant control) and stock management.Computer management applications.
Logistics and production methods and techniques.Production and manufacture systems.Quality managementSustainable manufacturing processes.Environmental pollution.Environmental conservationEnvironmental technologies.
Chemical equilibrium.Analysis methodologies.Instrumental analysis techniquesIntegrated laboratory on analytical methods.Physicochemical properties and the synthesis of organic and inorganic substances.Quality control
Balances of subject area and energy. Separation operations for transferring material.Applied chemical kinetics.Catalysis.Real and ideal reactors.Stability and optimisation.Kinetics of biochemical reactions.Exploitation of raw materials and energetic resources.Biotechnology. Conducting practicals on thermodynamic and transport properties, heat transfer, operations for transferring material, kinetics of chemical reactions and reactors.Modelling phenomena and systems in the area of engineering.
Balances of subject area and energy.Separation operations for transferring material.Applied chemical kinetics.Catalysis.Real and ideal reactors.Stability and optimisation.Kinetics of biochemical reactions.Exploitation of raw materials and energetic resources.Biotechnology.Conducting practicals on thermodynamic and transport properties, heat transfer, operations for transferring material, kinetics of chemical reactions and reactors.Modelling phenomena and systems in the area of engineering.
Analysis, design, simulation and optimisation of manufacturing processes.Security and industrial hygiene.Simulating, optimising and controlling chemical processes.Production and distribution of fluids in a chemical industrial plant.
It is carried out in companies, institutions and bodies that have a collaboration agreement with the school.
Enlargement of the knowledge about instrumental techniques of analysis acquired in the subject Instrumental Techniques of Chemical Analysis.Knowing the most important applications of the instrumental techniques applied to the chemical industry.
Chemistry of the environment
Polymerisation Engineering addresses the study of polymer materials, from their chemical structure, properties, behaviour and applications in today’s market. This subject covers both basic concepts, classification and characterisation methods, as well as the depolymerisation mechanisms and systems typical of the most common polymer materials. It also covers industrial aspects of polymerisation reactions, as well as innovative new materials in the polymer sector. And it deals with aspects related to the circularity of polymers and sustainability in this area.
The engineering project.Professional sphere of action.Methodology and management of projects.
Analysis, design, simulation and optimisation of manufacturing processes.Security and industrial hygiene.Simulation, optimisation and control of chemical processesProduction and distribution of fluids in a chemical industrial plant.
Individual project to be presented before a tribunal, consisting of a professional industrial engineering project synthesising and integrating the skills acquired over the course of the degree.
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