MATRICES, DETERMINANTS AND SYSTEMS
Matrices and Determinants. Definition of matrix. Linear operations with matrices. Product of matrices. Transposed matrix. Properties. Types of matrices. Inverse matrix. Uniqueness and properties. Elementary operations. Elementary matrices. Equivalent matrices. Hermite canonical form. Gauss-Jordan method for calculating the inverse of a matrix. Range of a matrix. Calculation of the range through elementary operations. Definition and properties of the determinant of a square matrix. Application of determinants.

LINEAR AND NON-LINEAR EQUATIONS SYSTEMS
Terminology and notations. Equivalent systems. Gauss removing method. Rouché–Capelli theorem. Homogeneous Systems: Nullspace of a matrix. Systems solving: methods and iterative.

VECTOR SPACE AND EUCLIDEAN SPACE
-Rn Vector Space. Definition and properties. Linear dependence and independence. Properties. Basis and dimension of Rn vector space. Vector’s coordinates. Change of basis in Rn. Vector subspaces. Characterisation. Equations of a subspace. Basis and dimension of a subspace.
-Rn Euclidean Vector Space.Scalar product. Module of a vector and angle between vectors. Orthogonal and orthonormal basis. Method for orthonormalisation of Gram–Schmidt.

DIAGONALIZATION OF MATRICES
Eigenvalues and eigenvectors of a square matrix. Properties. Diagonalizable matrix. Diagonalization.
Diagonalization of symmetric matrices by orthogonal similarity. Powers of a diagonalizable matrix. Jordan canonical form for matrices of order two and three.

CONICS AND QUADRICS
-Conics. Definition of conic. Matricial equation. Reduced equation of a conic. Classification and main elements of conics. Study of ordinary conics.

-Quadrics
Definition of quadric. Matricial equation. Reduced equation of a quadric. Classification of quadrics. Study of ordinary quadrics.

CURVES AND SURFACES
– Flat curves. Concept of flat curve. Expressions of a curve: parametric, explicit and implicit.
Tangent and normal in a point of a curve. Singular points and Ordinary points. Flat curves in polar coordinates.

– Warped Curves
Definition of a curve in the space. Equations of a curve. Ordinary point and Singular point.
Arc length of a curve. Three-dimension space and Frenet Formula. Tangent, normal and binormal straight line. Curvature and twisting. Normal, rectifying and osculating planes.

– Surfaces
Concept of surface. Tangent plane and normal straight line to a surface. Surfaces of revolution and translation. Conical and cylindrical surfaces.

FUNCTIONS OF A VARIABLE
Differential calculus of single variable functions. Real numbers and Complex numbers. Definition of function. Concept of continuity and limit. Calculation of limits. Concept of derivative. Interpreting the derivative. Calculation of derivatives. Mean value theorem. L’Hôpital’s rule Implicit derivative. Integral calculus of single variable functions. Primitive function. Calculation of primitive functions. Problem of the area of a flat region. Riemann’s integral. Rieman’s integral properties. Mean value theorem. Fundamental Theorem of Calculus and Barrow’s rule. Applications of integrals. Improper integral.

SEQUENCES AND SERIES
Real sequences. Limits of a sequence. Concepts of convergence and divergence. Real series: of positive terms, alternating and of whichever terms. Concepts of convergence and divergence. Geometric series and simple harmonic series. Convergence criteria. Power series. Taylor’s theorem. Taylor and McLaurin Series.

NUMERICAL METHODS
Numerical equation solving. Polynomial interpolation. Function approximation. Numerical differentiation and integration.

DIFFERENTIAL CALCULUS OF SEVERAL VARIABLES FUNCTIONS
Introduction to several variables functions. Surfaces in the space. Continuity and limits. Partial derivatives. Differentiability. Chain rule. Directional derivatives. Implicit derivative. Optimisation of several variables functions. Lagrange multipliers.

INTEGRAL CALCULUS OF SEVERAL VARIABLES FUNCTIONS
Iterated integrals. Double and Triple integrals. Applications. Variables changes: Polar, cylindrical and spherical coordinates.

BASIC GEOMETRIC CONSTRUCTIONS.
Elementary geometry flat transformations. Geometric traces. Scales.
Translation, rotation, symmetry and homothesis affinity and homology diedric system.

FUNDAMENTALS AND APPLICATIONS OF DISTANCES
Auxiliary views.
Rotations. Changes of plances projections of a flat figure angles.
Introduction to the study and representation of regular polyhedral surfaces.
Prism and pyramide cylinder and cone sphere.

DIMENSIONED DRAWING SYSTEM
Fundamentals and applications of distances.
Auxiliary views. Rotations. Angles.
Flat figures representations. Dimensioned representation of bodies and surfaces building roofs
Topographical surfaces.

INTRODUCTION TO AUTOCAD AIDED DESIGN BASIC CONCEPTS
Autocad environment.
Drawing and edition basic commands.

INTRODUCTION TO PHYSICS
Vector Analysis. Mathematical representation of physical phenomena.

KINEMATICS
General concepts. Study of motion. Types of motions.

MECHANICS OF A SINGLE PARTICLE
Newton’s Laws. Work and Energy.

MECHANICS OF A SYSTEM OF PARTICLES

MECHANICS OF A RIGID BODY

THERMODYNAMICS. HEAT AND TEMPERATURE. THERMODYNAMIC PROCESSES.

THEORY
Introduction to computer science (4 hours) Definitions.
Computer basic functions.
Software: operative systems, programming languages and applications. Databases.

Programming fundamentals (26 hours)
Introduction to the software life cycle.
Algorithm: concept, elements and representation. Structured programming.
Modular/top-down design.

PRACTICAL SESSIONS
Program development.
– Developing programmes under a programming language. Java (26 hours)
Types of primitive data. Variables, constants and operators. Selection and iteration statements. Text files.
Tables (vectors and matrices). Modular/top-down design
– Use of computing applications in Engineering (4 hours).
Database management system.

INTRODUCTION TO MATERIALS SCIENCE AND ENGINEERING
Introduction to Materials Science and Engineering.

STRUCTURE, LAYOUT AND MOVEMENT OF ATOMS
Crystalline structures. Crystalline defaults. Diffusion in solids.

PROPERTIES OF MATERIALS
Mechanical properties, break and tests. Other physical properties
Chemical properties.

CONTROL OF PROPERTIES AND MICROSTRUCTURE
Plastic deformation in metals Phase diagrams.
Phase transformations.
Handling and controlling thermal, electrical, magnetic and optical properties.

ENGINEERING MATERIALS: PROPERTIES, APPLICATIONS AND PROCESSING
Metallic alloys.
Ceramic materials. Polymeric materials. Composite materials Functional materials.

SELECTION OF MATERIALS IN INDUSTRIAL DESIGN
Criteria for selecting materials.

PRACTICAL UNIT
Thermal treatments: Normalised, hardened, tempered on F114 steel Charpy tests: impact toughness on F114 steel.
Resin deep-drawing of samples for metallographic preparation.
Tension tests on F114 steel: determination of the elastic module, elastic limit, tension resistance, shear stress, ductility, elastic energy and plastic energy.
Vickers, Rockwell and Brinell hardness tests.
Metallographic preparation and microscope observation of deep-drawn samples with different thermal treatment.

– DESCRIPTIVE STATISTICS.

– REGRESSION AND CORRELATION.

– THEORY OF PROBABILITY.CALCULATION OF PROBABILITIES.

– ONE-DIMENSIONAL AND TWO-DIMENSIONAL RANDOM VARIABLES.

– DISCRETE AND CONTINUOUS DISTRIBUTIONS.

– STATISTICAL INFERENCE.

– POINT AND INTERVAL ESTIMATION.

– HYPOTHESIS TESTING. PARAMETERS HYPOTHESIS TESTING.

– INTRODUCTION TO OPTIMISATION.

– OSCILLATIONS.

– WAVES: CHARACTERISATION. PROPAGATION.

– FIELDS OF CENTRAL FORCES.

– ELECTROSTATIC FIELD.

– GRAVITATIONAL FIELD.

– ELECTRIC CURRENT.

– MAGNETOSTATIC FIELD. ELECTROMAGNETIC INDUCTION.

THE COMPANY AND THE ECONOMIC SYSTEM
Concept of economy.
The transformation curve.
Fundamental economic problems The economic systems.
The economic agents.
Introduction to the markets functioning.

THE COMPANY AS AN ECONOMIC REALITY
Concept of company. Functions of companies.
The constituting elements of a company. Classification of companies.
The companies according to their legal form. Concept of businessman.
The businessman within the current company reality. The entrepreneurs.

THE COMPANY AS A SYSTEM
Managing roles.
Concept and properties of the systems.
Typology of the systems.
Conceptual elements of the company as a system.
The subsystems within the company.
The business environment.

THE FINANCIAL FUNCTION
Investment and funding.
Fundamental preliminary concepts.
The planned investment.
Funding sources or instruments in the company.
The own resources.
The third party’s resources.
Profit and profitability.

MARKETING IN THE COMPANY
The commercial subsystem. Definition of marketing.
The market: concept, segmentation and strategies. The marketing-mix.
The product. The price.
The place. The promotion.

THE PRODUCTION SUBSYSTEM
The production activity: concept and types.
Concept and elements of the production subsystem. Types of production processes.
Goals and decisions when administering production.

THE EFFICIENCY IN THE COMPANY
Efficiency measures. The productivity.
Graphical analysis of the productivity functions. Elements affecting productivity.
Concept and classification of costs.

DIMENSION OF INSTALLATIONS
Concept and criteria for dimension measures.
Dimension and scale economies.
Dimension and structure of costs.
Dimension, occupation rate and hysteresis of costs.
Methodology for determining the production capacity.

DECISIONS ON INSTALLATIONS LOCATIONS
Decisions on company location and its installations Strategies for multisite location.
Procedures and elements for the decision-making process. Quantitative methods for location.

PHYSICAL DISTRIBUTION OF INSTALLATIONS
Concept, objectives and elements for on-site distribution.
Types of on-site distribution.
Methods for installations distribution.

DESIGNING AND MEASURING WORK
Design of work.
Study of work methods. Study of times.

PROJECT PLANNING, PROGRAMMING AND CONTROL
Concept and stages in project management Concept and types of control.
Scope of control.
Project planning and control techniques.

– STRUCTURE OF MATTER.

– QUANTITATIVE ASPECTS OF CHEMISTRY.

– MATTER AGGREGATION STATES.

– LIQUID STATE AND DISSOLUTIONS.

– CHEMICAL THERMODYNAMICS.

– CHEMICAL KINETICS.

– CHEMICAL BALANCE.

– ACID-BASE REACTIONS.

– OXIDATION REDUCTION REACTION.

– CHEMICAL FUNDAMENTALS OF CORROSION ORGANIC CHEMISTRY.

ORDINARY DIFFERENTIAL EQUATIONS (ODE)
Origin, definition and classification of the ODE. Main concepts. Solutions. Type of solutions.

FIRST ORDER ODE
Existence and uniqueness of solution theorem. Geometric interpretation of the equation. y’=F(x,y)(placements).
DE with separable to reducible variables. Reducible to homogeneous DE. Exact DE. Reducible to exact: Integrating factor. First order linear DE. Definitions. Resolution. Bernouilli equation. Orthogonal and isogonal trajectories.

INTRODUCTION TO THE PARTIAL DIFFERENTIAL EQUATIONS

LINEAR DE OF SECOND ORDER OR HIGHER
Definitions. Existence and uniqueness theorem. Vector treatment of solutions. Linear Homogeneous Constant-Coefficient ODE: cases for resolution. Full linear ODE: undetermined coefficients method and method of variations of parameters. Variable changes. Euler equation. Converting a linear equations system into a higher order equation.

POWER SERIES SOLUTION OF DIFFERENTIAL EQUATIONS
Application of the power series to the solution of equations.

LAPLACE TRANSFORM
Introduction. Definition. Calculation of transforms of elementary functions. Properties. Convolution product. Inverse transform. Properties. Application for the solution of differential equations and integrals and linear equations systems.

VECTOR ANALYSIS
Vector fields. Line integrals. Conservative vector field and independence of path. Green’s theorem. Surface integrals. Divergence. Divergence theorem. Rotational. Stokes’ theorem.

INTRODUCTION AND PRELIMINARY CONCEPTS
Object and purpose. Model of solid. Mechanical prism.
Balance conditions and stresses.

STRESSES
Stress vector. Stress matrix. Main stresses and directions Intrinsic component. Mohr circles.

DEFORMATIONS
Deformation vector. Deformation matrix. Main deformations and directions Intrinsic components Mohr circles.

GENERAL SETTINGS OF THE ELASTIC PROBLEM
Tension test. Hooke’s law. Transverse deformations. Poisson’s coefficient. Principle of superposition.
Generalised Hooke’s law. Lame’s equation.

THEORIES OF ANELASTIC ACTION
Introduction. Mohr criteria of limit states. Other criteria

THEORY OF FORCES. STATIC CHARACTERISTICS OF THE SECTION
Forces. Moments. Centre of gravity. Static moment. Moment of inertia.

AXIALS
Introduction. Axial diagrams Stresses. Deformations.

SHEAR AND BENDING
Introduction. Shear and bending diagrams.

BENDING STRESSES
Pure bending, Navier-Stokes’ law. Simple bending. Relation shear and bending.

BENDING DEFORMATIONS
Introduction. The elastics.
Mohr’s Theorems.

BUCKLING
Introduction. Critical load. Effective length.
Buckling according to Eurocodes.

AIR AND ACOUSTIC POLLUTION
The atmosphere and its main pollutants.
General principles on gas emissions treatment. Operations and processes for gas emissions treatment. Acoustic pollution.

WASTE POLLUTION
Introduction to waste regulations. Urban wastes.
Hazardous wastes. Radioactive wastes.
Soil pollution and repair.

ENVIRONMENTAL MANAGEMENT
Environmental impact assessment. Environmental management systems.
Life cycle analysis. Green labelling.

WATER POLLUTION
The natural water environment and the waste waters. Physical operations for waste waters treatment. Chemical processes for waste waters treatment. Biological processes for waste waters treatment. Treatment and management of sludge.
Examples of waste waters treatment plants.

– STATICS OF THE RIGID SOLID.

– KINEMATICS AND DYNAMICS OF THE RIGID SOLID.
Kinematics of machines and mechanisms. Dynamics of machines and mechanisms.

– GENERAL CONCEPTS ON MACHINES AND MECHANICMS.

– LEVIES AND GEARS.

– PROPERTIES AND STATES OF PURE SUBSTANCES.

– APPLICATIONS OF THE THERMODYNAMICS PRINCIPLES.

– HEAT TRANSFER MECHANISMS.
Conduction, convection and radiation. Combined applications of the heat transfer mechanisms.

– HEAT EXCHANGERS.

INTRODUCTION TO AUTOMATIC REGULATION
Introduction to Automatic regulation. Description of Control Systems. Revision of mathematical basis and modelling of dynamic systems. Time response Analysis. Structures of industrial regulators.

INTRODUCTION TO AUTOMATION
Definitions and structures. Introduction to logic systems. Combinational and Sequential Systems and Applications.

INTRODUCTION TO MODELLING OF AUTOMATION SYSTEMS AND PROGRAMMABLE AUTOMATA
Introduction to modelling of Automation Systems. Petri networks. The programmable automata. Structure, programming.
Industrial applications.

THE P-N JUNCTION AS A DIODE
Qualitative theory of the P-N junction Characteristics and functioning of the diode. Approaches. Circuits with diodes. Rectification. The Zener diode. The Zener regulator.

THE BIPOLAR JUNCTION TRANSISTOR (BJT)
Morphology. Functioning regions. Characteristic curves. The BJT as an amplifier. The BJT as a switch. Pulse Wide Modulation (PWM).

JOINT FIELD EFFECT TRANSISTOR (JFET)
Morphology. Functioning regions. Characteristic curves. The MOSFET as an amplifier. The MOSFET as a switch.

THE OPERATIONAL AMPLIFIER (OA)
Amplification and features. The feedback. OA ideal model. Basic settings.

DIGITAL ELECTRONICS AND DIGITAL INTEGRATED CIRCUITS
Analogue vs digital. Binary system. Digital encoding of information. A/D and D/A converters. The clock. Series/parallel communications. Logic gates. Design and optimisation of logic circuits. Logic families.

METHODS FOR CIRCUITS ANALYSIS
Introduction.

RESISTIVE CIRCUITS COILS AND CONDENSERS
Methods for circuits analysis.

SINGLE PHASE AND THREE-PHASES CIRCUITS ANALYSIS SINUSOIDAL SIGNALS
Analysis in the sinusoidal steady state. Power in the sinusoidal steady state. Three-phases balanced systems.

ELECTROMETRICS
Fundamentals of electrical measurements. Analogue and digital instruments. Conditioning of signal Measurement methods.

BASIC PRINCIPLES OF ELECTRICAL MACHINES
Basic elements of electrical machines. Balance of energy in electrical machines. Classification of electrical machines.

LAB SESSIONS
Workshop security. Metrology. Sand moulding. Conventional machining and CNC Welding.

PROBLEMS
Metrology. Forming technologies and processes with material preservation. Forming technologies and processes with material removal. Joining technologies.

THEORY
Manufacturing systems. Manufacturing engineering and processes. CAx Systems and Manufacturing management systems. CIM Production systems. Plant engineering Emerging manufacturing systems.

METROLOGY
Fundamentals of metrology. Dimensional metrology Metrology of lengths and angles. Metrology of surface finish. Metrology of forms. Adjustment and tolerances.

FORMING TECHNOLOGIES AND PROCESSES
Forming technologies and processes with material preservation. Introduction to forming with material preservation. Consolidation processes. Deformation processes. Advanced processes.

FORMING TECHNOLOGIES AND PROCESSES WITH MATERIAL REMOVING
Introduction to forming processes with material removing. Conventional machining processes. Cutting tools Machining fundamentals.

JOINING TECHNOLOGIES
Introduction to forming with provision of material Welding joining processes. Symbolic representation of welding. Advanced processes with provision of material.

– Introduction.

– Forces acting on a fluid.

– Thermodynamics. Transport phenomena.

– Statics of fluids.

– Kinematics.

– Integrals extended to (finite) fluid volumes.

– Conservation of mass equation. Continuity equation.

– Conservation of linear momentum equation. Integral form. Differential form.

– Conservation of energy equation. Differential form. Integral form.

– Dimensional Analysis.

– Laminar unidirectional flows in liquids.

– Ideal fluids

– Calculation of pipelines, chamnels and fluid systems.

INTRODUCTION TO INDUSTRIAL TECHNICAL DESIGN. INDUSTRIAL FORMS AND THEIR STANDARDISED REPRESENTATIONS
The industrial technical design instrumentation and its practices standardised representations. Conventionalisms in industrial design. Cuts, sections, breaks and other conventionalisms auxiliary views. Sketching.

DIMENSIONING
General on dimensioning. Dimensioning according to manufacturing process.

SIGNS FOR SURFACE FINISHES
Surfaces finishing symbols of surface status.

TOLERANCES
Dimensional tolerances. Geometric tolerances.

CONSTRUCTION ELEMENTS: NON DETACHABLE JOINTS
Riveting and welding.

CONSTRUCTION ELEMENTS: DETACHABLE JOINTS
Flange and threads. Screws, nuts and washers. Supplementary security systems. Keys and keyseats. Hinge pins.

ORGANS OF MACHINES
Trees. Couplings. Spring bases. Pulleys. Toothed wheels.

ENSEMBLE AND EXPLODED DIAGRAM
General considerations.

USEFUL CONSIDERATIONS FOR INDUSTRIAL DESIGN ALIGNMENT. SYMBOLS AND STANDARDISATION
Basic concepts for isometric alignment of pipes in processes plants. Symbols and standardisation. Basic concepts for alignment of electrical schemes. Symbols and standardisation basic concepts for alignment of printed circuits. Symbols and standardisation.

AIDED DESIGN
Design aids and edition dimensioning. Blocks and attributes.

– ELECTRIC ENERGY DISTRIBUTION AND SUPPLY.

– INTRODUCTION TO ELECTRICAL INSTALLATION.

– DISTRIBUTION LINES.

– MV AND LV AERIAL LINES.

– MV AND LV UNDERGROUND LINES.

– SWITCHGEAR FOR MANOEUVRE AND PROTECTION OF MV AND LV.

– TRANSFORMATION CENTRES.

– INSTALLATIONS OF LINKS AND INTERIORS.

– LIGHTING INSTALLATIONS.

– ELECTRICAL PRICING.

– GENERAL PRINCIPLES OF ELECTRICAL MACHINES.

– POWER TRANSFORMERS.

– ASYNCHRONOUS MACHINES.

– SYNCHRONOUS MACHINES.

– CONTINUOUS CURRENT MACHINES.

– SPECIAL ELECTRICAL MACHINES.

INTRODUCTION TO REGULATION AND CONTROL SYSTEMS
Basic concepts.
General block chart on the control systems. Examples. Transfer function.
Representation of systems. Blocks algebra. Modelling of dynamic systems.
Solving linear time-invariant differential equations. Laplace Method.

STEADY STATE AND TRANSITIONAL STATE OF THE CONTROL SYSTEMS
Operative states: transitional state and steady state. Steady state, study of error in the steady state.
Transitional response in first order system. Transitional response in second order system. Higher order systems.
Routh-Hurwitz stability criterion.

PLACE OF THE ROOTS
Introduction. Definition and concepts. Alignment method.
Response of systems through the analysis of the place of roots.

DESIGN AND COMPENSATION TECHNIQUES
Introduction.
Preliminary considerations in design. PID controllers setting. Compensation in the place of roots.

INTRODUCTION TO DIGITAL CONTROL OF SYSTEMS
Basic concepts.
Basic techniques on analysis and design of digital control systems.

– THE PRODUCTION AND DEMAND OF ELECTRIC ENERGY.

– COMPOSITION OF A POWER ELECTRICAL SYSTEM.

– MODELLING OF A POWER ELECTRICAL SYSTEM.

– QUANTITIES PER UNIT.

– FLOW OF LOADS.

– ANALYSIS OF FAULTS AND PROTECTIONS.

– CONTROL OF POWER GENERATION.

– INTRODUCTION TO PLANNING AND CONTROL OF PRODUCTION.

– INVENTORY MANAGEMENT.

– AGGREGATE PLANNING.

– MASTER PROGRAMMING.

– PROGRAMMING OF COMPONENTS.

– VERY SHORT TERM PLANNING AND CONTROL.

– INTRODUCTION TO LABOUR RISK PREVENTION.

– ORGANISATION OF THE PREVENTION IN-COMPANY.

– RESPONSIBILITIES AND PENALTIES CONCERNING PREVENTION.

– PERSONAL PROTECTION EQUIPMENT.

– PREVENTION AND PROTECTION AGAINST FIRES.

– MINIMUM PROVISIONS ON SAFETY AND HEALTH SIGNALLING.

– MACHINES SECURITY AGAINST MECHANICAL RISKS SECURITY PROVISIONS AT WORK PLACES.

– ASSESSMENT OF POLLUTANTS. CHEMICAL POLLUTANTS. RADIATIONS SECURITY AND HEALTH STUDIES IN CONSTRUCTION WORKS.

– HANDLING, MOVING AND TRANSPORTING LOADS.

– ELECTRICAL RISKS.

– SAFETY AND PREVENTION IN ELECTRICAL AND OXY ACETYLENE WELDING.

SPECIFIC FUNCTIONING SWITCHGEAR
General concepts. Functioning and protection switchgear. Introduction to electrical automates.

DRIVES OF ELECTRICAL MACHINES
General concepts. Drives for alternating current engines. Drivers for direct current engines.

STATIC CONVERTERS FOR DRIVES OF ELECTRICAL MACHINES
General considerations. Characteristics of the devices. Classification and type of converters.

CONTROL OF DIRECT CURRENT MACHINES
General concepts. Power circuit. Control circuit. Speed variators in direct current circuits.

CONTROL OF ALTERNATING CURRENT MACHINES
General concepts. Electronic starters. Speed variators in alternating current circuits.

THE ENERGY RESOURCES AND THE ELECTRICITY PRODUCTION
Energy sources. The electricity. The electricity system. Classification and short description of power stations. Demand and production. Parameters. Covering the demand. Structure of the production of electricity in Spain. Energy model. Legal framework. The electric market.

THE GENERATOR AT THE POWER STATIONS. REGULATION OF THE VOLTAGE
The synchronous generator. Types. Construction provisions. Functional characteristics. Functioning flowcharts. Ventilation and cooling. Alternators excitation systems. Basic parameters. Voltage regulation. Regulators. The asynchronous generator. Load behaviour. Converters and controls.

FUNCTIONING IN GENERATION. STABILITY
Operating synchronous machines in parallel. Static stability of the operation in parallel. The synchronous machine coupled to a network. Active and reactive power compensation. Regulation of the speed and the frequency. Types of regulation. Phase swingings of the synchronous machine.

EXTERNAL SHORT CIRCUIT FAULTS AFFECTING THE GENERATOR
Short circuit in the synchronous machine. Symmetrical permanent short circuit. Symmetrical components. Direct, inverse and homopolar reactances. Asymmetrical permanent short circuit. Abrupt short circuit of an alternator. Subtransitional and transitional reactance. Time constant.

ELECTRICAL SYSTEMS OF THE POWER STATIONS. PROTECTIONS
Auxiliary services. Power transformers. Substation for network connection. Command, control and protections in power stations. Protections for the synchronous generator, engines and transformers. Protection for bars, lines and networks.

HYDRAULIC AND THERMAL POWER STATIONS
Hydraulic power stations. Water Resources Exploitation. Building elements of the hydraulic power stations. Characteristics of the generator according to the type of turbine. Hydraulic power stations with pump accumulators. Types. Starting methods. Thermal Power Stations. General composition and constitutive elements. Conventional Thermal Power Stations. Combined cycle power stations. Nuclear Thermal Power Stations. Nuclear fission and fusion. Nuclear reactors. Co-generation power stations.

GENERATION OF ELECTRICITY BY RENEWABLE ENERGIES EXPLOITATION OF RENEWABLE ENERGIES
Wind systems. Photovoltaic systems. Generation of electricity out of other renewable energy sources

OTHER METHODS TO GENERATE ELECTRICITY OR MAINTAIN THE SUPPLY
Electrical power-unit and Uninterruptable power supply systems. Galvanic or voltaic batteries. Hydrogen and fuel cells.
Storage of energy.

FUELS AND COMBUSTION
Theoretical and real process. Enthalpy of formation and combustion. First and Second law of reactive systems. Thermal installations. Boilers.

GAS POWER CYCLES
Engines: OTTO, DIESEL, STIRLING, ERICSSON cycles. Gas turbines: BRAYTON (Regeneration, Intercooling, Reheating, Regeneration) Deviation of real cycles from idealized ones. Second law of gas power cycles.

CYCLES OF POWER STEAM AND COMBINED CYCLES. STEAM TURBINES
Rankine’s cycle. The reheat steam cycle, open and closed heaters. Second law of steam power cycles. Co-generation, combined and binary.

– CALCULATION OF ELECTRICAL LINES IN STEADY STATE.

– ELECTRICAL CALCULATION OF DISTRIBUTION LINES.
High voltage aerial lines. Electrical and mechanical calculation. Switchgear and protection.

– TRANSFORMERS AND DISTRIBUTION SUBSTATIONS.

INTRODUCTION TO INDUSTRIAL TECHNICAL DESIGN. INDUSTRIAL FORMS AND THEIR STANDARDISED REPRESENTATIONS
The industrial technical design instrumentation and its practices standardised representations. Conventionalisms in industrial design. Cuts, sections, breaks and other conventionalisms auxiliary views. Sketching.

DIMENSIONING
General on dimensioning. Dimensioning according to manufacturing process.

SIGNS FOR SURFACE FINISHES
Surfaces finishing symbols of surface status.

TOLERANCES
Dimensional tolerances. Geometric tolerances.

CONSTRUCTION ELEMENTS: NON DETACHABLE JOINTS
Riveting and welding.

CONSTRUCTION ELEMENTS: dETACHABLE JOINTS
Flange and threads. Screws, nuts and washers. Supplementary security systems. Keys and keyseats. Hinge pins.

ORGANS OF MACHINES
Trees. Couplings. Spring bases. Pulleys. Toothed wheels.

ENSEMBLE AND EXPLODED DIAGRAM
General considerations.

USEFUL CONSIDERATIONS FOR INDUSTRIAL DESIGN ALIGNMENT. SYMBOLS AND STANDARDISATION
Basic concepts for isometric alignment of pipes in processes plants. Symbols and standardisation. Basic concepts for alignment of electrical schemes. Symbols and standardisation basic concepts for alignment of printed circuits. Symbols and standardisation.

AIDED DESIGN
Design aids and edition dimensioning. Blocks and attributes.

– GENERAL PRINCIPLES OF ELECTRICAL MACHINES.

– POWER TRANSFORMERS.

– ASYNCHRONOUS ELECTRICAL MACHINES.

– SYNCHRONOUS ELECTRICAL MACHINES.

– DC MACHINES.

– ELECTRICAL DRIVES.

AMPLIFICATION. INTEGRATED AMPLIFIERS
Introduction. Types and characteristics. Power and decibels. The model of voltage booster. Response in frequency in amplifiers. Supply sources and performance.

THE OPERATIONAL AMPLIFIER. ANALYSIS AND FEEDBACK
Introduction. The ideal operational amplifier. Deviations from the idealized operational amplifier. Structure of operational amplifier. Feedback: concepts, interpretation, advantages and disadvantages. Types of feedback. Practical feedback networks with operational amplifiers. Basic amplifier circuits.

LINEAR APPLICATIONS OF OPERATIONAL AMPLIFIERS. SPECIAL AMPLIFIERS
Introduction. The differential amplifier. The instrumentation amplifier. The converter voltage-current and current-voltage. Offset compensation. Accuracy rectifiers: medium wave and double wave. Peak detector.

NON LINEAR APPLICATIONS OF OPERATIONAL AMPLIFIERS
The operational amplifier as a comparator. Commercial comparators. Comparators with hysteresis. Clippers-limiters. Exponential amplifier. Logarithmic amplifier.

FILTERS
Introduction. First order passive and active filters. Second order passive and active filters. Delyiannis-Friend passband filters. Universal filters. Transient response.

OSCILLATORS
Introduction. Waveform. Basic feedback principles. Barkhausen’s criteria. Generic oscillator. Wien bridge oscillator. Phase displacement oscillator. Twin-T network oscillator. Hartley Oscillator. Colpitts Oscillator. RC digital oscillator. Glass oscillator.

APPLICATIONS
Regulated voltage sources. Capacity commutation. The 555 integrated timer. Voltage generators. Analogue multipliers. Other integrated functions.

LOGIC GATES ANALYSIS
Design with integrated Logic gates.

ANALYSIS AND DESIGN OF CIRCUITS
Analysis and design of combinational circuits. Analysis and design of arithmetic circuits. Analysis and design of circuits with bistables.

SEQUENTIAL CIRCUITS
Analysis and design of counter circuits. Analysis and design with registers.

AUXILIARY DIGITAL CIRCUITS

ANALYSIS AND DESIGN OF MICRO-PROGRAMMABLE CIRCUITS
The free hardware.

– COMPONENTS AND STRUCTURES OF AN AUTOMATIC REGULATION SYSTEM.

– DESIGN OF LEAD AND DELAY PHASE COMPENSATORS.

– DESIGN OF PROPORTIONAL INTEGRAL-DERIVATIVE CONTROLLERS.

– CONTROL SYSTEMS WITH DELAY.

– INTERNAL REPRESENTATION OF SYSTEMS.

– CONTROL TECHNIQUES IN THE STATE-SPACE.

– DINTRODUCTION TO DISCRETE-TIME CONTROL SYSTEMS.

– INTRODUCTION TO PLANNING AND CONTROL OF PRODUCTION.

– INVENTORY MANAGEMENT.

– AGGREGATE PLANNING.

– MASTER PROGRAMMING.

– PROGRAMMING OF COMPONENTS.

– VERY SHORT TERM PLANNING AND CONTROL.

– INTRODUCTION TO LABOUR RISK PREVENTION.

– ORGANISATION OF THE PREVENTION IN-COMPANY.

– RESPONSIBILITIES AND PENALTIES CONCERNING PREVENTION.

– PERSONAL PROTECTION EQUIPMENT.

– PREVENTION AND PROTECTION AGAINST FIRES.

– MINIMUM PROVISIONS ON SAFETY AND HEALTH SIGNALLING.

– MACHINES SECURITY AGAINST MECHANICAL RISKS SECURITY PROVISIONS AT WORK PLACES.

– ASSESSMENT OF POLLUTANTS. CHEMICAL POLLUTANTS. RADIATIONS SECURITY AND HEALTH STUDIES IN CONSTRUCTION WORKS.

– HANDLING, MOVING AND TRANSPORTING LOADS.

– ELECTRICAL RISKS.

– SAFETY AND PREVENTION IN ELECTRICAL AND OXY ACETYLENE WELDING.

INTRODUCTION TO INDUSTRIAL AUTOMATION
Fundamentals of industrial control. Conventional automatisms. Acting sensors. Conditioning of signals.

LOGIC CONTROLLERS AND HALF-MEDIA CIRCUITS
Logic controllers. Programmable logic devices. Design of logic controllers with programmable logic devices.

PROGRAMMABLE AUTOMATA
Introduction to the programmable automaton. Programming of the automate Grafcet methodology, Gemma guide.

INDUSTRIAL PROCESSES CONTROL
SCADA Systems. Industrial communication networks Distributed control systems. Standardisation and protection levels of industrial equipment.

INTRODUCTION TO POWER ELECTRONICS
General on different types of electrical energy conversion. General blocks scheme of a power system. Circuits in the power systems. Basic functions. Waveforms and characteristic values. Scope of application.

SPECIFIC COMPONENTS OF POWER ELECTRONICS
Thyristor and GTO. Block and conduction status. Ways of pulse. Times of pulse. Characteristics of gates. Blocking procedures. Other components.

STATIC SWITCHES
General characteristics. CC static switches Block by parallel condenser. Block with inductance series with load.
AC static switches. Natural block switches. Forced block switches.

REGULATORS
Introduction. Basic concepts. CC dissipative and non-dissipative regulators. Classification. Types of regulators. Choppers. Analysis chopper type A. Inverse, direct, elevator and buck. Analysis of chopper type B. Analysis of chopper type C. Analysis of chopper type D. Commutation in choppers. Commutation in resonant series circuit. Commutation in resonant parallel circuit. Control circuits.

CONTROLLED RECTIFIERS
Introduction. Single phase rectifier. Medium wave and bridge rectifier. Synchronisation pulse circuit. Simple polyphase rectifiers.

INVERSORS
Settings of the power circuit. The inverter as an intensity source. Regulation and filtration of output voltage. Study of a branch of an inverter bridge. Half bridge inverter. Full bridge inverter. Three-phase bridge.

AC/AC CONVERTERS
Introduction. Alternating current regulators. Advantages of the modulation of vector space over the sinusoidal modulation. Applications.

PRACTICAL SESSIONS
Basic CC circuit for pulsing a thyristor by gate.
AC Circuit. Static switches. Control of pulse of a thyristor between 0º and 90º. AC Circuit. Control of pulse of a thyristor between 0º and 180º.
CC-CC Converters, voltage elevator. CC-CC Converters, voltage reducer.
Controlled rectifiers. Full wave controlled single phase rectifier.

REVIEW OF BASIC CONCEPTS
Number systems. BCD codes. Text representation. Representation of Real numbers.

C PROGRAMMING LANGUAGE
Types of data. Variables. Flow control. Functions. Pointers. Structures and typedef.

INTRODUCTION TO MICRO-CONTROLLERS
Definitions. Characteristics. Applications.

LPC4088 MICROCONTROLLER.
Internal structure. Input/ouput ports. Timers. Alnalogue/digital converters. Interruptions.

COMMUNICATION INTERFACES
UART. SPI. I2C. CAN. Ethernet. USB.

REAL-TIME OPERATING SYSTEMS
Definition and classification. Multi-task systems. Task planning. Inter-task communication. Race conditions. Critical sections. Mutual exclusion. Priority inversion. Priority inheritance protocol. MicroC/OS-III Real-time Operating System.

– CHARACTERISTICS OF THE ELECTRONIC MEASUREMENT DEVICES.

– DIGITAL TO ANALOGUE AND ANALOGUE TO DIGITAL CONVERSION.

– CLASSIFICATION OF SENSORS AND TRANSDUCTORS.

– LINEAR DISPLACEMENT TRANSDUCERS AND POSITION SWITCHES.

– ANGLE DISPLACEMENT TRANSDUCERS.

– SPEED AND ACCELERATION TRANSDUCERS.

– TEMPERATURE TRANSDUCERS.

– PRESSURE TRANSDUCERS.

– FLOW MEASUREMENT.

– LEVEL MEASUREMENT.

INTRODUCTION TO INDUSTRIAL TECHNICAL DESIGN. INDUSTRIAL FORMS AND THEIR STANDARDISED REPRESENTATIONS
The industrial technical design instrumentation and its practices standardised representations. Conventionalisms in industrial design. Cuts, sections, breaks and other conventionalisms auxiliary views. Sketching.

DIMENSIONING
General on dimensioning. Dimensioning according to manufacturing process.

SIGNS FOR SURFACE FINISHES
Surfaces finishing symbols of surface status.

TOLERANCES
Dimensional tolerances. Geometric tolerances.

CONSTRUCTION ELEMENTS: NON DETACHABLE JOINTS
Riveting and welding.

CONSTRUCTION ELEMENTS: dETACHABLE JOINTS
Flange and threads. Screws, nuts and washers. Supplementary security systems. Keys and keyseats. Hinge pins.

ORGANS OF MACHINES
Trees. Couplings. Spring bases. Pulleys. Toothed wheels.

ENSEMBLE AND EXPLODED DIAGRAM
General considerations.

USEFUL CONSIDERATIONS FOR INDUSTRIAL DESIGN ALIGNMENT. SYMBOLS AND STANDARDISATION
Basic concepts for isometric alignment of pipes in processes plants. Symbols and standardisation. Basic concepts for alignment of electrical schemes. Symbols and standardisation basic concepts for alignment of printed circuits. Symbols and standardisation.

AIDED DESIGN
Design aids and edition dimensioning. Blocks and attributes.

– INTRODUCTION TO EXPERIMENTAL METHODOLOGY.

– DETERMINATION OF PHYSICAL AND THERMODYNAMIC PROPERTIES.

– DETERMINATION OF DIAGRAMS OF BALANCE PHASES.

– APPLIED CHEMICAL KINETICS.

– EQUIPMENT OF FLUID FLOWS.

INTRODUCTION TO CHEMICAL ENGINEERING
The Chemical Engineering. The industrial chemical processes. Systems of magnitudes and units. Dimensional analysis.

UNIT OPERATIONS IN THE CHEMICAL INDUSTRY
Unit operation. Classification. Operations of matter transfer. Operations of heat transfer. Operations of transport of quantity of movement. Supplementary operations. Chemical unit operation.

MACROSCOPIC BALANCES OF MATTER AND ENERGY
Mass balance. Energy balance.

REACTOR DESIGN FUNDAMENTALS
Introduction. Types of reactors. Velocity of reaction. Conversion and conversion degree. Variables affecting the velocity of reaction. Speed equation for complex reactions. Speed equation and material balance. Thermal balance and heat transfer.

MODELS OF A CHEMICAL REACTOR
Introduction. Discontinuous reactor. Continuous stirred-tank reactor. Continuous tubular reactor (plug flow). Specific models according to thermal system. Stability in reactors.

REACTORS WITH SOLID CATALYSTS
Introduction. Speed equation. Design of reactors for gas-solid reactions. Experimental methods for speed determination. Application to design.

FLUID-FLUID REACTORS
The speed equation. Film conversion parameter. Application to design

CHARACTERISATION OF FLOWS IN REACTORS
Introduction. Characterisation of flow: distribution curves and reactor’s response. Method for establishing a flow method. Real tubular reactor. Real stirred reactor.

HETEROGENEOUS SOLID-FLUID REACTORS
Selection of a model. Nucleus model with no reaction for spherical particles. Reaction speed for spherical particles. Determination of the stage controlling speed. Application to design

INTRODUCTION
Characteristics of the chemical industry. The chemical processes: historic development, current approach. Environmental impact. Pollution concept. Representation and classification of processes.

THE RAW MATERIALS
Classification of raw materials. Techniques for enriching raw materials.

ENERGY RESOURCES IN THE CHEMICAL INDUSTRY
Energy resources. Production and responsible use of the energy in the chemical industry. Energy and environment. Problems arising of the use of fuels.

THERMAL POWER STATIONS
Classification of thermal power stations.

PETROLEUM AND PETROCHEMISTRY
Composition and characterisation of crude oils. Refinery treatments. Rectification, cracking and hydrogenation. Petroleum derivative products. Origin and characteristics of the main pollutants in refining operations. Treatment and removal of these. Analysis of some petrochemical industries.

THE CHARCOAL
Origin and constitution of charcoal. Methods of exploitation: pyrogenation, gasification. Origin and treatment of the main pollutants generated throughout the charcoal obtaining and exploitation process.

IRON AND STEEL INDUSTRY
Main iron and steel industries. Manufacturing processes. Origin and characteristics of the main pollutants. Reduction and treatment.

AMONIUM AND DERIVATIVES
Obtaining and applications of ammonium. Obtaining and applications of nitric acid. Other derivatives. Fertilisers. Main pollutants generated throughout each process. Treatment.

SULPHURIC ACID
Process of obtaining: pyrites roasting, SO2 oxidation; absorption of SO3. Applications. Main pollutants generated within the process. Treatment.

CEMENTS
Types of cements. Manufacturing processes. Use in construction works. Origin and characteristics of the main emissions. Treatment.

PAPER INDUSTRY
Processes for obtaining paper. Pulp and paper factories. Origin and treatment of wastes generated when manufacturing pulp and paper.

THE PHOSPHATE ROCK AND THE POTASSIUM ORES
Fertilisation and fertilisers. Treatment of sylvinite. Applications of Potassium chloride. Main pollutants generated within the process. Treatment.

– INTRODUCTION TO PLANNING AND CONTROL OF PRODUCTION.

– INVENTORY MANAGEMENT.

– AGGREGATE PLANNING.

– MASTER PROGRAMMING.

– PROGRAMMING OF COMPONENTS.

– VERY SHORT TERM PLANNING AND CONTROL.

– INTRODUCTION TO LABOUR RISK PREVENTION.

– ORGANISATION OF THE PREVENTION IN-COMPANY.

– RESPONSIBILITIES AND PENALTIES CONCERNING PREVENTION.

– PERSONAL PROTECTION EQUIPMENT.

– PREVENTION AND PROTECTION AGAINST FIRES.

– MINIMUM PROVISIONS ON SAFETY AND HEALTH SIGNALLING.

– MACHINES SECURITY AGAINST MECHANICAL RISKS SECURITY PROVISIONS AT WORK PLACES.

– ASSESSMENT OF POLLUTANTS. CHEMICAL POLLUTANTS. RADIATIONS SECURITY AND HEALTH STUDIES IN CONSTRUCTION WORKS.

– HANDLING, MOVING AND TRANSPORTING LOADS.

– ELECTRICAL RISKS.

– SAFETY AND PREVENTION IN ELECTRICAL AND OXY ACETYLENE WELDING.

INTRODUCTION TO AUTOMATIC CONTROL SYSTEMS.
Introduction and objectives of the automatic process control. History of the automatic control. Basic component of control system, terminology and basic concepts. Open-loop and closed-loop controls. Block chart and simplification. Transfer function of a closed loop. Accuracy and stability. Transmission signals. Control strategies.

MODELLING OF THE DYNAMIC BEHAVIOUR OF SYSTEMS.
Linearity. Differential equations. Mechanical, thermal and hydraulic systems. General features of the physical systems.

MATHEMATICS FOR THE ANALYSIS OF CONTROL SYSTEMS.
Laplace transforms. Deviation variables. Linearity of functions.

FIRST ORDER DYNAMIC SYSTEMS.
Introduction and study to different systems: mercury-bulb globe thermometer, reactor element with heating band, tank element with one order chemical reaction, tank element variable level and free output, pressure system element.

HIGHER ORDER DYNAMIC SYSTEMS.
Introduction and study to different second order systems: mercury pressure gauge element, thermometer element in its environment, two-tank series system, automatic valve element. Responses for a step entrance and characteristic parameters of a curve. Other dynamic elements.

CONTROL SYSTEMS BY FEEDBACK. PID CONTROLLERS.
Control feedback loop. PID controllers: proportional, integral and derivative action.

DYNAMIC ANALYSIS OF CONTROL FEEDBACK CIRCUITS.
Transfer functions. Characteristic equation. Mathematical analysis of control loops. Response of a closed circuit, errors in stationary situation. Stability of the control circuit. Controller tuning.

– INTRODUCTION TO DESIGN IN CHEMICAL ENGINEERING.

– FLOW DIAGRAM OF A PROCESS UNIT.

– INTRODUCTION TO THE SIMULATION OF CHEMICAL PROCESSES.

– MASS AND ENERGY BALANCES.

– DESIGN INFORMATION AND DATA.

– BASIC CHARACTERIZATION OF CRUDE OIL AND OIL BY-PRODUCTS.

– SIMULATION AND BASIC MODELS OF UNIT OPERATIONS.

– FLUID TRANSPORT.

– HEAT TRANSFER.

– MASS TRANSFER.

– CHEMICAL REACTION.

– DESIGN AND SIMULATION OF A CHEMICAL ENGINEERING PROJECT.

– PRACTICES ON CONTINUOUS AND DISCONTINUOUS HEAT EXCHANGERS.

– PRACTICES ON THE STUDY OF THE HEAT TRANSFER MECHANISMS.

– PRACTICES ON PHASES BALANCE.

– PRACTICES ON MATTER TRANSFER OPERATIONS: DISTILLATION, EXTRACTION, ADSORPTION, ETC.

– STUDY OF THE CHARACTERISATION OF REACTORS FLOW AND KINETICS.

INTRODUCTION TO SEPARATION OPERATIONS
Terminology and symbols. Diffusional processes and balance stages. Fundamentals of the processes bystages.

INSTANTANEOUS DISTILLATION
Binary steam-liquid balance. Binary instantaneous distillation. Steam-liquid balance with several components. Instantaneous distillation of several components.

COLUMN DISTILLATION.
Distillation equipment. Specifications. External and internal column balances. Methods for binary distillation: Sorel-Lewis, McCabe-Thiele, Ponchon-Savarit. Efficiencies.

INTRODUCTION TO MULTICOMPONENT DISTILLATION.
Short approximate methods for distillation of several components. Fenske and Underwood equations. Gilliland Correlation.

GAS ABSORPTION.
Design of filled tower. Absorption fundamentals. Absorption speed. Correlations of matter transfer. Absorption with chemical reaction. Other separations in filled columns.

ELUTRIATION AND EXTRACTION.
Elutriation. Equipment. Ideal stages in countercurrent elutriation. Efficiency of the stages. Extraction liquid-liquid. Equipment. Extraction fundamentals. McCabe-Thiele Method.

INTRODUCTION TO INDUSTRIAL TECHNICAL DESIGN. INDUSTRIAL FORMS AND THEIR STANDARDISED REPRESENTATIONS
The industrial technical design instrumentation and its practices standardised representations. Conventionalisms in industrial design. Cuts, sections, breaks and other conventionalisms auxiliary views. Sketching.

DIMENSIONING
General on dimensioning. Dimensioning according to manufacturing process.

SIGNS FOR SURFACE FINISHES
Surfaces finishing symbols of surface status.

TOLERANCES
Dimensional tolerances. Geometric tolerances.

CONSTRUCTION ELEMENTS: NON DETACHABLE JOINTS
Riveting and welding.

CONSTRUCTION ELEMENTS: dETACHABLE JOINTS
Flange and threads. Screws, nuts and washers. Supplementary security systems. Keys and keyseats. Hinge pins.

ORGANS OF MACHINES
Trees. Couplings. Spring bases. Pulleys. Toothed wheels.

ENSEMBLE AND EXPLODED DIAGRAM
General considerations.

USEFUL CONSIDERATIONS FOR INDUSTRIAL DESIGN ALIGNMENT. SYMBOLS AND STANDARDISATION
Basic concepts for isometric alignment of pipes in processes plants. Symbols and standardisation. Basic concepts for alignment of electrical schemes. Symbols and standardisation basic concepts for alignment of printed circuits. Symbols and standardisation.

AIDED DESIGN
Design aids and edition dimensioning. Blocks and attributes.

– INTRODUCTION TO THE STUDY OF ELASTICITY.

– STRESS CONDITIONS IN ELASTIC SOLIDS.

– DEFORMATIONS IN A CONTINUOUS MEDIUM.

– DEVIATED BENDING AND COMPOUND BENDING.

– COMBINED STRESSES.

GENERAL CONCEPTS
Introduction to Fluid Mechanic Engineering. Properties of fluids. Integral form of equations. Fluid flow fundamentals.

TURBO-MACHINES
Fundamental principles of turbo-machines Similarity. Hydraulic turbines Fan pumps.

HYDRAULIC AND PNEUMATIC INSTALLATIONS
Resistant characteristic of the network. Regulation. Holes, tubes, nozzles and weirs. Measurement instruments of free and level flows. Installations design and calculation.

DISTRIBUTION NETWORKS
Installation of a pipe with a tank Two-tanks systems. Pipes servicing throughout the route Series and parallel pipes systems. Systems of pipelines.

OPEN CHANNELS
Introduction.

– Boilers.

– Cold production.

– Engines: power plants.

– Alternative internal combustion engines.

– CHARACTERISATION OF MATERIALS.

– MECHANICAL BEHAVIOUR OF MATERIALS.

– MATERIALS SERVICING BEHAVIOUR; TRIBOLOGY.

– SELECTION OF MATERIALS IN THE INDUSTRY.

– MATERIALS OF SPECIAL INDUSTRIAL INTEREST.

– MATERIALS PROCESSING.

– INTRODUCTION TO PLANNING AND CONTROL OF PRODUCTION.

– INVENTORY MANAGEMENT.

– AGGREGATE PLANNING.

– MASTER PROGRAMMING.

– PROGRAMMING OF COMPONENTS.

– VERY SHORT TERM PLANNING AND CONTROL.

– INTRODUCTION TO LABOUR RISK PREVENTION.

– ORGANISATION OF THE PREVENTION IN-COMPANY.

– RESPONSIBILITIES AND PENALTIES CONCERNING PREVENTION.

– PERSONAL PROTECTION EQUIPMENT.

– PREVENTION AND PROTECTION AGAINST FIRES.

– MINIMUM PROVISIONS ON SAFETY AND HEALTH SIGNALLING.

– MACHINES SECURITY AGAINST MECHANICAL RISKS SECURITY PROVISIONS AT WORK PLACES.

– ASSESSMENT OF POLLUTANTS. CHEMICAL POLLUTANTS. RADIATIONS SECURITY AND HEALTH STUDIES IN CONSTRUCTION WORKS.

– HANDLING, MOVING AND TRANSPORTING LOADS.

– ELECTRICAL RISKS.

– SAFETY AND PREVENTION IN ELECTRICAL AND OXY ACETYLENE WELDING.

– BASIC CONCEPTS ON ARTICULATED SYSTEMS.

– CALCULATIONS OF ISOSTATIC TRUSS.

– CALCULATION OF HYPERSTATIC TRUSS.

– INFLUENCE LINE.

– STRUCTURES AND INDUSTRIAL CONSTRUCTION DESIGN.

– MATRIX ANALYSIS OF STRUCTURES.
Elementary matrices. Coordinates systems. Change of basis rigidity method. Flexibility method. Non concordant conditions.

– DESIGN OF MECHANICAL ELEMENTS.

– ANALYSIS TOOLS.

– MACHINE TESTING.

– PREVENTION OF FAULTS.

– ALIGNMENT OF METAL FABRICATION. JUNCTIONS OF SURFACES AND DEVELOPMENTS.

– AUXILIARY VIEWS OF INDUSTRIAL FORMS AND THEIR STANDARDISED REPRESENTATIONS.

– FURTHER ENSEMBLE AND EXPLODED DIAGRAM.

– INDUSTRIAL PERSPECTIVES.
Dimensioning and cuts. Further pipelines alignment. Symbols, planes and isometric alignment. Reading industrial planes.

– AIDED DESIGN.

LAB SESSIONS
Workshop security. Metrology. Sand moulding. Conventional machining and CNC Welding.

PROBLEMS
Metrology. Forming technologies and processes with material preservation. Forming technologies and processes with material removal. Joining technologies.

THEORY
Manufacturing systems. Manufacturing engineering and processes. CAx Systems and Manufacturing management systems. CIM Production systems. Plant engineering Emerging manufacturing systems.

METROLOGY
Fundamentals of metrology. Dimensional metrology Metrology of lengths and angles. Metrology of surface finish. Metrology of forms. Adjustment and tolerances.

FORMING TECHNOLOGIES AND PROCESSES
Forming technologies and processes with material preservation. Introduction to forming with material preservation. Consolidation processes. Deformation processes. Advanced processes.

FORMING TECHNOLOGIES AND PROCESSES WITH MATERIAL REMOVING
Introduction to forming processes with material removing. Conventional machining processes. Cutting tools Machining fundamentals.

JOINING TECHNOLOGIES
Introduction to forming with provision of material Welding joining processes. Symbolic representation of welding. Advanced processes with provision of material.

INTRODUCTION TO ENGINEERING PROJECT
The engineering work: the industrial expert. The technical department and its organisation. Applications of computer science in the technical department. Assessments, valuations, technical reports and certificates. The industrial project: definition, object, stages, formal presentation and structure, processing.

DOCUMENTS OF THE PROJECT
Documents of the project: table of contents report and annexes. Documents of the project: planes. Documents of the project: tender specifications. Documents of the project: status of measurements. Documents of the project: budget. Documents of the project: reliable studies construction works management.

REGULATIONS AND LEGISLATION
The rules.

INTRODUCTION
The structures and the equipment. Structures and equipment in the electric sector. Structures and equipment in the chemical sector. Methodologies of calculation.

MATRIX CALCULATION OF STRUCTURES
General concepts on matricial methods. Coordinates systems. Elementary matrices. The direct method of rigidity. Actions not focused on nodes.

STRUCTURES FOR ELECTRICAL STRINGING SUPPORTS
Introduction. Stringing support structure. Foundation.

PRESSURE CONTAINERS
Definition of concepts. Calculation by internal pressure.

TANKS AND PIPES
Design of tanks. Design of pipes for processes.

REGULATORY SCHEME
ASME Boiler and Pressure Vessel Code. Section 8 Division 1 for designing of pressure containers ANSI B31.3. Process piping for designing process piping.

REGULATIONS ON HIGH VOLTAGE LINES
RD 223/08 on the design of supports for electrical lines. API-650 for tanks design. ASTM/ISO Standards for materials.

INTRODUCTION TO PROCESS ENGINEERING
– Chemical Engineering.
– Industrial chemical processes.
– Flow diagrams.

UNIT OPERATIONS IN CHEMICAL INDUSTRY
– Unit operation.
– Heat transfer operations.
– Operations of linear momentum transport.
– Complementary operations.
– Chemical unit operation.

MASS AND ENERGY BALANCES
– Mass balance.
– Energy balance

– THERMAL ENERGY GENERATION.

– POWER PLANTS.

– INTERNAL COMBUSTION ENGINES.

– COLD GENERATION.

– TURBO-MACHINES.

– HYDRAULIC INSTALLATIONS.

– POWER TRANSMISSION IN MACHINES.

– STRESS, TENSION AND DEFORMATION.

– FAULTS BY STATIC CHARGE.

– FAULTS BY FATIGUE.

– AXLES AND SHAFTS.

– SCREWS AND DETACHABLE JOINTS.

– WELDING AND NON-DETACHABLE JOINTS.

– SPRINGS.

– BALL BEARINGS.

– LUBRICATION AND DISPLACEMENT FLANGE.

– GEAR WHEELS AND GEAR WHEELS REDUCERS.

– BRAKES AND CLUTCHES.

– STRAPS, CHAINS AND WIRES.

– Switchgear.

– Calculation and sizing of industrial electrical installations.

– Electrical planes and schemes of industrial electrical installations.

– Software for industrial electrical installations.

CHARACTERISTICS OF THE ELECTRONIC MEASUREMENT INSTRUMENTS
– Range, resolution, sensibility.
– Sampling frequency. Frequency response.
– Overshot, settling time.
– Uncertainty.

EVALUATION OF MEASUREMENT DATA. GUIDE TO THE EXPRESSION OF UNCERTAINTY IN MEASUREMENT
– General metrological terms.
– Type A and type B standar uncertainty.
– Combined uncertainty. Expanded uncertainty. Reporting uncertainty.
– The true value and tha corrected value. Graphical representation.

RANDOM DATA, MEASUREMENTS AND EXPLORATORY DATA ANALYSIS.
– Sources or errors in electronic measurement equipment.
– Statistical estimators in measurement: biased and unbiased.
– Autocorrelation and spectra.

DATA ACQUISITION: THEORY AND PRACTICE
– Electronic equipment functional blocks.
– Analog to digital converters.
– Sampling theorem. Aliasing and leakage effects.
– Discrete spectra.

INTERFERENCES AND NOISE.
– Types of interferences.
– Coupling mechanisms.
– Modeling interferences.
– Noise in electronic circuits.
– Short term stability.

SENSORS AND TRANSDUCERS
– Classification of sensors and transducers.
– Electronic conditioning.
– Displacement.
– Temperature.
– Accelerometers. Vibration characterization.
– Force and torque.
– Flow.
– Other magnitudes.
– Smart sensors.

NON-DESTRUCTIVE TESTING (NDT)
– Acoustic Emission (AE): testing and monitoring.
– Piezoelectric acoustic emission sensors.
– Electromagnetic method.
– Digital imaging
– Ultrasonics.
– Leak testing method.
– Radiology (X and Gamma) method.
– Radiology (neutron) method.

NOISE AND VIBRATION CONTROL THROUGH ELECTRONICS
– Electronics as the key to vibration control.
– Structure of a control electronic system.
– Electronic mesurement and diagnostics.
– Vibration transducers: more.
– Equipment.

– Components and structure of a control system.

– Modelling and simulation of control systems.

– System response. Time and frequency domains.

– Control modes and controller design.

– Introduction to discrete-time control systems.

– Control of discrete events. Programmable logic controller.

– Monitoring sytems and supervision.

– Industrial networks and communication.

– Introduction to distributed control systems.

Students taking degrees in any of the bachelor degrees in Technical Industrial Engineering carry out an individual project (written report) in their final year. Each project is supervised by a member of the School and it must be presented orally before a committe. The final project can be done in English.

During the fourth year, students must choose two optional courses among those within the academic offer for the specific technology of study (Mechanical Engineering, Electrical Engineering, Industrial Electronic Engineering and Industrial Chemical Engineering). Moreover, they may request for the academic recognition of these optional credits in compliance with article 12.8 on the Royal Decree 1393/2007.

– Introduction to renewable energies.

– Wind energy.

– Photovoltaic solar energy.

– Thermal solar energy.

– Minihydraulic energy.

– Biomass energy.

– Marine energy.

– Hydrogen, the future energy.

– Generation system.
– Distribution system.

– Expert PID controllers.
– Metaheuristic algorithms.
– Genetic algorithms.
– Fuzzy Logic.
– Artificial Neural Networks.

– Internal representation of systems. Design of controllers in state-space.
– Adaptative control.
– Introduction to verification methods of control systems. Software-in-the-loop, processor-in-the-loop, hardware-in-the-loop and rapid control prototyping
– Discrete-time control systems.
– Robust control.
– Predictive control.

– SIGNAL ANALYSIS AND TRANSMISSION. WAVELET TRANSFORM.
– CONCEPTS AND ELEMENTS OF AN ELECTRONIC COMMUNICATION SYSTEM.
– ANALOGUE MODEULATIONS.
– DIGITAL MODULATIONS.
– SYNCROPHASORS (PMUs).
– DATA PROCESSING.

– ELECTRONIC INSTRUMENTATION IN RENEWABLE ENERGIES.
– MONITORING OF RENEWABLE ENERGY SYSTEMS.
– METEOROLOGICAL ELECTRONIC INSTRUMENTATION.
– ELECTRONIC INSTRUMENTATION OF INDUSTRIAL SYSTEMS.
– ELECTRONIC INSTRUMENTATION IN POWER GENERATION.
– DATA ADQUISITION SYSTEMS.

– CURRENT REGULATION. CALCULATION AND PROJECT OF A METALLIC STRUCTURE.
– CONSTRUCTION.
– THE STRUCTURE.
– JOINTS.

– INTRODUCTION TO QUALITY.
– PLANNING.
– REGULATIONS.
– QUALITY IN SERVICE DELIVERY.
– CONTROL TECHNIQUES.
– PRACTICAL SESSIONS.

– INTRODUCTION TO GENERATION AND USE OF THERMAL ENERGY.
– FUELS CHARACTERISTICS AND PROPERTIES.
– COMBUSTION. THEORY AND CALCULATION. EFFICIENCY. CONTROL AND REGULATIONS.
– BURNERS.
– FURNACES.
– COGENERATION.
– ENERGY AUDIT.