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Technical Industrial Engineer, Industrial Chemistry Speciality.

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216.- TECHNICAL INDUSTRIAL ENGINEER,
INDUSTRIAL CHEMISTRY
FIRST YEAR
Graphical Expression and C.A.D.
Physics I
Mathematics I
Chemical Fundamentals
Fundamentals of Computer Science
Chemical Laboratory
Mathematics II
Physical Chemistry
Physics II
Experimentation in Chemistry I
Statistical Methods in Engineering
Organic Chemistry
SECOND YEAR
Chemical Analysis
Chemical Reaction Engineering
Basic Operations I
Experimentation in Chemical Engineering I
Chemical Engineering Materials
Mathematical Methods in Chemical Engineering I
Analytical Instrumental Techniques
Chemical Experimentation II
Control of Chemical Processes and Instrumentation I
Industrial Chemistry I
Industrial Heating and Cooling
Electronic and Electric Technology
THIRD YEAR
Business Administration and Production Organisation I
Technical Office
Basic Operations II
Industrial Chemical Analysis
Chemical Process Control and Instrumentation I
Industrial Chemistry II
Final Project
OPTIONAL COURSES
Business Administration and Production Organisation II
Drawing in Chemical Engineering
Industrial Inorganic Compounds
Mathematical Methods in Chemical Engineering II
Electrochemical Corrosion
Health, Safety and Ergonomics
Fluids Mechanics
Quality Control in Industrial Chemical Laboratories
Environmental Control and Analysis
Auxiliary Services in Chemical Industry
Modelling and Simulation
Waste Water Treatment
IV-1
Waste Solid Treatment
Atmospheric Pollution
Environmental Chemometrics
Analytical Separation Techniques
Quality Control in Food Industry
Automatic Analysis Methods
Analytical Chemometrics
Industrial Information Technology
Equipment in Industrial Chemistry
Digital Control
Strategies in Chemical Process Design
Structure in Chemical Buildings
Practices
FIRST YEAR
16227- Graphical Expression and C.A.D.
Semester 1; 75 Hours
Representation techniques. Fundamental standardisation in Technical Drawing. Introduction to CAD. Industrial
standardisation. Fundamentals of industrial design in the specialism.
Teaching Method: Lectures. Individual practical exercises. Computer aided design.
Assessment: Written exam. Assessment of the practical exercises.
16228- Physics I
Semester 1.; 55 Hours
Kinetic of particles. Dynamic of particles. Scalar and vector fields. Wave Movements. Study of Thermodynamic
Principles.
Teaching Method: Lectures. Practical Problems. Laboratory Practices
Assessment: Written exam. Assessment of Laboratory Practices
16229 - Mathematics I
Semester 1; 60 Hours
Introduction to lineal algebra. Linear transformations. Diagonalization. Quadratic forms. Introduction to
infinitesimal calculus. Differentiation of functions in one variable. Integral of functions in one variable.
Teaching Method: Lectures. Practical problems. Laboratory Practices.
Assessment: Written exam. Practical trial using computers.
16230 - Chemical Fundamentals
Semester 1; 75 Hours
Structure of the atom. Chemical bound. Intermolecular forces. Solids. Dissolutions. Acid-base reactions. Oxidationreduction reactions. Representative elements. Metallurgy. Inorganic Chemistry and Environment.
Teaching Method: Lectures. Practical problems. Laboratory Practices.
Assessment: Written exam. Assessment of the laboratory practices.
16231- Fundamentals of Computer Science
Semester 1; 60 Hours
Introduction to Computer Science. Introduction to UNIX. Information Codes. Programs and Algorithms: Data and
Expressions, Structures of Control, Subprograms, Arrays, Files. Programming in C. Computer Architecture.
Peripherals.
Teaching Method: Lectures. Practical problems . Laboratory practices.
Assessment: Written exam and oral exam.
16232 - Chemical Laboratory
Semester 1; 30 Hours
Health and security in the laboratory. Basic techniques and operations.
Teaching Method: Lectures. Practical problems. Laboratory Practices.
Assessment: Written exam. Practical trial using computers.
IV-2
16233 - Mathematics II
Semester 2; 60 Hours
Integral Calculus in one variable. Differential Calculus in more than one variable. Differential equations.
Teaching Method: Lectures. Practical problems.
Assessment: Written exam
16234- Physical Chemistry
Semester 2; 60 Hours
Equilibrium. Gaseous state. Molecular solutions. Thermodynamic reactions. Chemical Equilibrium. Electrolytes.
Chemical reaction kinetics. Homogeneous catalysis. Heterogeneous catalysis.
Teaching Method: Lectures. Practical problems.
Assessment: Written exam.
16235- Physics II
Semester 2; 60 Hours
Electrical Field. Conductors and capacitors. Electro-kinetics. Magnetic Field. Electromagnetic Induction. Waves.
Teaching Method: Lectures. Practical problems. Laboratory practical
Assessment: Written exam. Assessment of the laboratory practical
16236- Experimentation in Chemistry I
Semester 2; 30 Hours
Experiments in the laboratory
Teaching Method: Laboratory practical
Assessment: Assessment of the laboratory practical
16237- Statistical Methods in Engineering
Semester 2; 60 Hours
Data description, Uni-dimensional distributions. Muti-dimensional variables distributions. Probability and its
properties. Random variables. Distribution models. Introduction to statistical inference. Punctual estimation. Interval
estimation. Hypothesis test.
Teaching Method: Lectures. Practical problems.
Assessment: Written exam. Practical problems assessment
16238- Organic Chemistry
Semester 2; 60 Hours
Structure and Properties of Organic Components. Systematic Study of Carbon Compounds. Natural Products.
Teaching Method: Lectures. Practical problems.
Assessment: Written exam.
SECOND YEAR
16239- Chemical Analysis
Semester 1; 45 Hours
Introduction. Chemical equilibrium. Acid-base equilibrium: volumetric analysis. Complex ion equilibrium:
volumetric analysis. Solubility equilibrium: volumetric analysis. Electrochemistry. Oxidation-Reduction volumetric
analysis. Gravimetric techniques. Analysis methodologies.
Teaching Method: Lectures. Practical problems.
Assessment: Written exam.
16240- Chemical Reaction Engineering
Semester 1; 70 Hours
Reactors Design. Homogeneous Reactors. Heterogeneous Reactors.
Teaching Method:. Lectures. Practical problems.
Assessment: Written exam.
16241- Basic Operations I
IV-3
Semester 1; 75 Hours
Study of mass and energy balances, fluid movement, heat transfer and mass transfer separation operations.
Teaching Method:. Lectures. Practical problems.
Assessment: Written exam. Assessment of practical work.
16242- Experimentation in Chemical Engineering I
Semester 1; 60 Hours
Experiment the concepts of the Physical-Chemistry and Basic Operations. courses
Teaching Method: Laboratory practices
Assessment: Assessment of laboratory practices.
16243- Chemical Engineering Materials
Semester 1; 45 Hours
Metallic materials in chemical engineering. Polymeric materials in chemical engineering. Ceramic materials in
chemical engineering. Compounds materials in chemical engineering.
Teaching Method:. Lectures. Practical problems. Laboratory practices.
Assessment: Written exam. Assessment of laboratory practices.
16244- Mathematical Methods in Chemical Engineering I
Semester 1; 45 Hours
Numeric calculus in non linear equations, integrals solving, linear systems, interpolation, numeric solution of
problems of initial value.
Teaching Method:. Lectures. Practical problems. Laboratory practices.
Assessment: Written exam. Assessment of laboratory practices. Laboratory exam.
16245- Analytical Instrumental Techniques
Semester 2; 30 Hours
Instrumental Analysis. Potentiometric methods. Voltametry. Optical methods. Optical Spectroscopy. Molecular
spectroscopy. Atomic spectroscopy. Emission spectroscopy. Introduction to chromatography.
Teaching Method:. Lectures.
Assessment: Written exam.
16246- Chemical Experimentation II
Semester 2; 60 Hours
Quantitative analysis techniques and their application in real samples.
Teaching Method:. Laboratory practices
Assessment: Assessment of laboratory practices.
16247- Control of Chemical Processes and Instrumentation I
Semester 2; 60 Hours
Introduction. Instrumental systems. Systems representation and math tools. Simple systems modelling. First order
systems. Second order systems and higher order systems. Basic control actions. Feedback control systems.
Measurement systems I. Measurement systems II. Valves. Industrial applications.
Teaching Method: Lectures. Practical problems. Laboratory practices
Assessment: Written exam. Assessment of laboratory practices.
16248- Industrial Chemistry I
Semester 2; 60 Hours
Water for obtaining products. Air for obtaining products. Lithosphere for obtaining products. Environment.
Teaching Method:. Lectures. Practical problems. Laboratory practices.
Assessment: Written exam. Assessment of laboratory practices.
16249- Industrial Heating and Cooling
Semester 2; 30 Hours
Concepts on thermal engineering. Heat transfer. Industrial cool and heating. Industrial combustion. Heat generation.
Vapour generators, vapour and gas turbines.
Teaching Method: Lectures. Practical problems.
Assessment: Written exam.
IV-4
16250- Electronic and Electric Technology
Semester 2; 45 Hours
Electrostatic and electrical magnitudes. Electric circuits. Transients. AC signals and circuits. Semiconductors.
Diodes. Installations: industrial and housing. CC Machines. CA Machines. Induction Engines.
Teaching Method:. Lectures. Practical problems. Laboratory practices.
Assessment: Written exam. Assessment of laboratory practices.
THIRD YEAR
16260- Business Administration and Production Organisation I
Semester 1; 60 Hours
The enterprise and the market. Business decisions. Management Support.
Teaching Method: Lectures.
Assessment: Written exam. Continuos work.
16261- Experimentation in Chemical Engineering II
Semester 2; 60 Hours
Heat transmission. Distillation. Rectification. Crystallization. Tanks. Milling.
Teaching Method: Lectures. Practical exercises. Laboratory practices.
Assessment: ??
16262- Technical Office
Semester 1; 60 Hours
Functions developed in the technical manufacturing office. Procedures for organising the production department.
Introduction to carrying out technical studies. Project management.
Teaching Method: Lectures.
Assessment: Written exam. Practical work.
16263- Basic Operations II
Semester 1; 60 Hours
Flow around Immersed Corps. Solid particles characterisation. Size reduction. solids blends. Mechanical
separations. Fluid based separations. Solids Drying. Crystallization.
Teaching Method: Lectures.
Assessment: Written exam.
16264- Industrial Chemical Analysis
Semester 1; 60 Hours
Methodology. Further Analytical Techniques Applied to the Industry. Analysis of Industrial Materials.
Teaching Method: Lectures. Practical exercises. Laboratory practices.
Assessment: Written exam. Assessment of laboratory practices.
16265- Chemical Process Control and Instrumentation II
Semester 1; 30 Hours
Continuous Linear Systems. Control Systems Design.
Teaching Method: Lectures. Practical exercises. Laboratory practices.
Assessment: ??
16266- Industrial Chemistry II
Semester 2; 70 Hours
The Lithosphere as source of resources: petrol, petrochemical industry, synthetic polymers . The biosphere as source
of resources: plants and fats. Industrial Safety and Health.
Teaching Method: Lectures.
Assessment: Written exam.
IV-5
16267- Final Project
Once all the obligatory courses have been collected, a Final Project has to be worked out. It also has to be defended
by the author in front of a committee of Professors appointed by the School-Board. Both requirements need to be
successfully me before receiving the official Diploma (Bachelor Degree).
OPTIONAL COURSES
16214- Business Administration and Production Organisation II
Semester 2; 45 Hours
Economy. Economic systems. Economy in Spain. Business and businessmen. Type of business. Juridical Protection
of the businessmen. Corporations. Limited liability companies. Money markets. Financial support.
Teaching Method: Lectures.
Assessment: Written exam. Continuos work.
16251- Drawing in Chemical Engineering
Semester 1; 45 Hours
Standard symbols used in chemical engineer. Standards for drawing schemes and diagrams. Software for graphical
Expression in Chemical Engineering.
Teaching Method: Lectures. Practical problems.
Assessment: Written exam. Assessment of practices
16252- Industrial Inorganic Compounds
Semester 1; 45 Hours
Ceramics. Silicones. Pigments and charges in painting. Metallurgy. Compounds.
Teaching Method: Lectures. Laboratory Practices.
Assessment: Written exam. Assessment of practical works.
16253- Mathematical Methods in Chemical Engineering II
Semester 1; 45 Hours
Statistic Methods in Chemical Engineering.
Teaching Method:. Lectures. Practical problems. Laboratory practices.
Assessment: Written exam. Assessment of laboratory practices.
16254- Electrochemical Corrosion
Semester 1; 30 Hours
Metallic corrosion. Polarization and corrosion currents. Protection techniques.
Teaching Method: Lectures. Practical problems. Practical laboratory.
Assessment: Written exam. Assessment of practical laboratory.
16255- Health, Safety and Ergonomics
Semester 1; 30 Hours
Risks. Safety. Fire. Health. Pollution. Ergonomic. Legislation.
Teaching Method:. Lectures. Practical problems.
Assessment: Written exam.
16256- Fluids Mechanics
Semester 1; 30 Hours
Definitions. Fluids statics. Fluids kinematics and dynamics. Endurance of pipes. Systems of pipes. Noise
measurements. Fluids lifting.
Teaching Method: Lectures. Practical problems. Practical laboratory.
Assessment: Written exam. Assessment of practical laboratory.
16257- Quality Control in Industrial Chemical Laboratories
Semester 2; 45 Hours
Fundamentals of Quality Control. Quality Systems Documents. Quality Assessment. Quality and Analytical
Laboratories. Sampling. Quality and Calibration. Reference Materials. Program of Quality Insurance.
Teaching Method: Lectures. Practical problems. Practical laboratory.
IV-6
Assessment: Written exam. Assessment of practical laboratory.
16258- Environmental Control and Analysis
Semester 2; 45 Hours
Environmental impact. Environmental pollution. Control of atmospheric pollution. Water quality. Liquid and solid
waste. Noise.
Teaching Method: Lectures. Practical laboratory.
Assessment: Written exam. Assessment of practical laboratory.
16259- Auxiliary Services in Chemical Industry
Semester 2; 45 Hours
Introduction. Termic and Power Services. Mecanic and Power services. Operative Services. Other Services.
Teaching Method:. Lectures. Practical problems.
Assessment: Written exam. Practical works.
16270- Modelling and Simulation
Semester 2; 45 Hours
?
Teaching Method:?
Assessment: ?.
16271- Water Waste Treatment
Semester 2; 60 Hours
Contamination. Volume of Waste Water. Composition of Waste Water. Unitary Physical Operations. Unitary
Biological Processes. Anaerobic and Aerobic Biological cleansing. Biologic Elimination of nutrients. Mud
treatment. Soft technologies.
Teaching Method: Lectures. Practical exercises. Practical project
Assessment: Written exam. Assessment of the practical work
16272- Solid Waste Treatment
Semester 1; 45 Hours
Introduction. Urban Solid Waste Treatment. Urban Solid Waste Evacuation. Industrial Waste. Toxic and Dangerous
Waste.
Teaching Method: Lectures. Practical exercises. Practical project
Assessment: Written exam. Assessment of the practical work
16273- Atmospheric Pollution
Semester 2; 30 Hours
General aspects of atmospheric pollution. Methodologies for measuring the atmospheric pollution. Causes for the
atmospheric pollution. Meteorological factors and dispersion. Height and design of chimneys. Principles for
reducing pollution in gasses. Particles elimination. Deodorizing. Legislation.
Teaching Method: Lectures.
Assessment: Written exam.
16274- Environmental Measurements
Semester 2; 45 Hours
Measurements in the environment. Validation tests applied to measurements. Calibration. Sampling. Designing and
optimization of experiments. Quality administration of contaminants measurements.
Teaching Method: Lectures. Practical exercises. Laboratory practices.
Assessment: Written exam. Assessment of the practical work
16275- Analytical Separation Techniques
Semester 1; 45 Hours
Separation Techniques. Chromatographic Techniques. Gasses Chromatography. Liquid Chromatography.
Supercritic fluids extraction and chromatography. Capillar Electrophoresis.
Teaching Method: Lectures. Practical exercises using computers. Laboratory practices.
Assessment: Written exam. Assessment of the practical work
IV-7
16276- Quality Control in Food Industry
Semester 2; 60 Hours
Composition of Food. Basic Analysis of Food. Additives. Food Microbiology. Food contaminants. Packing.
Analysis of Fats. Analysis of preserved foods. Analysis of Wine. Analysis of Flour. Analysis of Meet. Analysis of
Drinkable Water.
Teaching Method: Lectures. Practical problems. Laboratory practices.
Assessment: Written exam. Assessment of laboratory practices.
16277- Automatic Analysis Methods
Semester 2; 30 Hours
General Aspects. Previous Operations Automating. Continuous flux analysers. Discontinuous analysers.
Instrumentation automating. Processes Analysers, Automating in Environment.
Teaching Method: Lectures. Practical exercises. Laboratory practices.
Assessment: Written exam. Assessment of the practical work
16278- Analytical Chemometrics
Semester 2; 45 Hours
Teaching Method: Lectures. Practical exercises. Laboratory practices.
Errors in experiments. Validation tests applied to measurements. Sampling and quality control. Calibration.
Experimental design and optimisation.
Assessment: Written exam. Assessment of the practical work
16279- Industrial Information Technology
Semester 1; 45 Hours
Teaching Method:?
Assessment: ?.
16280- Equipment in Industrial Chemistry
Semester 2; 60 Hours
Diagrams of Processes. Fluids: Pipes, valves, pumping,, transporting gasses, heat transference. Recipients. Solids:
Equipment for transporting solids, solid-fluid separation.
Teaching Method: Lectures. Practical exercises. Laboratory practices.
Assessment: Written exam. Assessment of the practical work
16281- Digital Control
Semester 2; 30 Hours
Teaching Method:?
Assessment: ?.
16282- Strategies in Chemical Process Design
Semester 2; 45 Hours
Introduction to Design. Flowcharts. Power. Heat interchange. Heat Interchange Networks Design. Services. Cost
analysis.
Teaching Method: Lectures. Practical exercises. Practical work
Assessment: Written exam. Assessment of the practical work
16394- Practices
Semester 2; 45 Hours
The student should look for an enterprise where he will stay doing a technical activity.
Teaching Method: The student will have an engineer responsible in the company and a professor in the School.
They should advise to the student in their work.
Assessment: The responsible professor should assign a mark to the student from a final report.
1?????- Structure in Chemical Buildings
Semester 2; 45 Hours
Steel. Concrete. Glass. P.V.C. Covers. Bituminous Materials. Welded Joins. Project. Structures. Earth. Pathologies.
Teaching Method: ??
Assessment: ??
IV-8
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