Polytechnic School of Albacete 3-year Degree in Industrial Engineering, Specialising in Electricity ECTS Co-ordinator Prof. Gloria Begoña Sánchez Bravo Address Escuela Politécnica Superior de Albacete Avda. de España, s/n Campus Universitario 02071 Albacete Telephone nº +34-967-599200 Extension 2445 Fax +34-967-599224 e-mail Gloria.sanchez@uclm.es Dean or Director Centre Details of the Syllabus Address Telephone nº +34-967-599200 Extension 2402 Fax +34-967-599224 e-mail Address Antonio Garrido del Solo Escuela Politécnica Superior de Albacete Avda. de España, s/n Campus Universitario 02071 Albacete Antonio.garrido@uclm.es Escuela Politécnica Superior de Albacete Avda. de España, s/n Campus Universitario 02071 Albacete Telephone nº +34-967-599200 e-mail Antonio.garrido@uclm.es Professional 3-year Degree in Industrial Engineering, Qualification Specialising in Electricity Three years Division in Cycles One cycle of the faculty/centre Professional Qualification Date of the Syllabus Overall number of classes in UCLM credits Overall number of classes in ECTS credits 1999 Polytechnic School of Albacete 3-year Degree in Industrial Engineering, Specialising in Electricity 225 UCLM credits 180 ECTS credits
First Year Code Subject ECTS 20101 Fundamental Physics (annual) 9 20102 Graphic Expression and Computer Assisted Design I 6,5 20103 Circuits I 6,5 20104 Basic Mathematics I. Calculus 5 20105 Basic Mathematics II. Algebra 5,5 20106 Chemistry 4 20107 Basic Computing 5 20108 Theory of Mechanisms and Structures 5,5 20109 Statistical Methods in Engineering 5,5 20110 Electrometry 2,5 20111 Extension of Mathematics for Electrical Engineering 5 Second Year Code Subject ECTS 20112 Electric Machines 9,5 20113 Industrial Electronics 8,5 20114 Electric and Magnetic Materials 2,5 20115 Circuits II 3,5 20116 Civil Works in Electrical Engineering 5 20117 General Installations 5 20118 Business Administration and Organisation of Production 5 20119 Electric Power Stations I 3,5 20120 Transport I: Cables 5 Third Year Code Subject ECTS 20121 Electric Installations (annual) 6,5 20122 Technical Office 4,5 20123 Electric Power Stations II 4,5 20124 Transport II. Substations and Centres 4,5 20125 Electronics of Power 4,5 20126 Automatic Regulation 4,5 20127 Control and Application of Electrical Machines 4,5 9011 End of Degree Project 4,5
Optional Courses Code Subject ECTS Especiality in Installations 20137 Luminotechnics 4,5 20142 Special Electrical Machines 4,5 20143 Electrical Engine Control 4,5 20144 Advanced Electronic Systems 4,5 Especiality in Industrial Exploitations 20145 Renewable Energies and Electricity Management 4,5 20146 Maintenance of Electrical Installations BT 4,5 20147 Materials and Production Processes 4,5 20148 Quality Control Systems 4,5 Additional Optional Courses 20149 English for Engineering 4,5 20150 Numerical Calculus 4,5 20151 Differential Equations 4,5 20152 Programming of Systems 4,5 20153 Computer Assisted Design Techniques 4,5 20154 Waves: Applied Acoustics and Optics 4,5 Free Configuration Code Subject ECTS 86048 Electro-Chemistry 4,5 Subject Code 20101 Fundamental Physics Annual Hours per week 3,5 hours/week Subject type Compulsory 9 ECTS To know the Physics laws, accurately, and how to apply them to solve practical situations, and to design and alnalyze laboratory experiments. Mechanics, Waves, Electromagnetism, Optics, Thermodynamics. Bibliography Alonso, M. y Finn, E.J. Física. Addison Wesley, Iberoamericana, 1995. Cheng, D.K. Fundamentos de Electromagnetismo para Ingeniería, Addison Wesley, Iberoamericana, 1997. Serway, R.A. y Jewett J.W. Física, Thomson 2003. Tipler, P.A. Física, Reverté, 1999.
E. Hurtado Santón (Emilia.Hurtado@uclm.es) Theoretical and practical lessons Written exam and optional works. Laboratory reports.
Subject Code 20104 Basic Mathematics I: Calculus 15 weeks Subject type Compulsory 5.5 The knowledge of the basic methods of the Mathematical Analysis of one real variable and its applications in engineering. Continuity, differentiability and integration of functions of one real variable. Sequences and series. Introduction to Ordinary Differential Equations. Bibliography -Fernández Viña: Lecciones de Análisis Matemático I. Ed. Tecnos -Ortega: Introducción al Análisis Matemático. Ed Labor. -Salas Hille - Etgen: Calculus. Vol 1.Ed. Reverté. -Spivak: Calculus. Ed. Reverté. Sebastián Lajara López and Aurora Sanchis Puig Lectures, problems and practical work (laboratory). Theoretical/practical exam.
Subject Code 20105 Basic Mathematics II: Algebra. 15 weeks Subject type Compulsory 5,5 The knowledge of the utility of linear algebra in the courses and the subsequent use of it in the professional life. Complex numbers. Vector spaces and linear maps. Diagonalization of endomorphism and matrices. Euclidean space. Quadratic forms. Bibliography Serrano, R. Lozano, M. Villaverde, J. Martínez, A. Apuntes de Álgebra; Popular Libros. Serrano, R. Lozano, M. Villaverde, J. Martínez, A. Apuntes de Álgebra:Ejercicios; Popular Libros. Burgos, J. de: Álgebra Lineal. Ed. Mc. Graw Hill. Martínez, A.- Serrano, R.- Tendero, A.: Algunos problemas de Álgebra Lineal.Ed. A5. Antonio Martínez Plaza, Mariano Lozano Sánchez. Lectures, problems and practical work (computers). Theoretical/practical exam.
Subject Code 20107 Basic Computing 15 weeks Subject type core 5 To study fundamental concepts gives programming and operation gives the computer. Bibliography Introduction to computer science. The software in the computer. Operating Systems. Programming languages. Translators. Algorithms and programs. The C programming language. Representation of computer information. Computer structure. Functional unities. Machine code and assembler. Prieto, Lloris, Torres. Introducción a la Informática. McGraw- Hill, 1995. Patterson, D.; Hennessy, J.L. "Organización y Diseño de Computadores. La Interfaz hardware/software" McGraw-Hill, 1994. Schildt, H.." C: Manual de Referencia". 3ª ed. McGraw-Hill. 1997. García,Carretero,Fernández,Calderón. "El Lenguaje de Programación C. Diseño e implementación de programas". Prentice Hall. 2002. Ana Amelia González López Lectures, problems and practical work (laboratory). Theoretical/practical exam
Subject Code 20109 Statistical Methods in Engineering 15 weeks Subject type Compulsory 5.5 Application of probability theory and statistics to engineering problems, distribution theory and discussion of particular distributions of interest in engineering, statistical estimation and data analysis. Illustrative statistical applications may include quality control, linear regression, and analysis of engineering data sets. The population and the Sample. Probability distributions. Random Sample. Sampling distributions. The Sampling distribution of the mean. Hypothesis tests for comparing two means. Introduction to design experiments. Comparing k samples. Linear Regression and correlation. Introduction to quality statistical control in engineering. PRACTICAL Introduction to SPSS. Statistic Descriptive. Inference in populations. Analysis of variance. Linear Regression and correlation. The control chart in quality. Bibliography Probabilidad y estadística para ingenieros. R.E. Walpole, R.H. Myers, S.L.Myers. Prentice Hall,1998 Statistics for the Life Sciences. M.L.Samuels. Ed : Dellen Publ. Co., 1989. Probabilidad y Estadística aplicadas a la Ingeniería. D.C. Montgomery, G.C. Runger. Ed: McGraw-Hill, 1996. Francisco Parreño Torres Lectures, practical classes Theoretical/practical exam
Subject Code 20111 Extension of Mathematics for Electrical Engineering 15 weeks Subject type 5.5 The understanding of the basic techniques of the Infinitesimal Calculus of several real variables, Vector and Fourier Analysis. Continuity, differentiability and integration of functions of several variables. Vector fields. Introduction to the integral transforms. Fourier Series. Bibliography -Fernández Viña: Análisis Matemático II y III. Ed. Tecnos -Salas Hille - Etgen: Calculus. Vol 2. Ed. Reverté. Sebastián Lajara López and Aurora Sanchis Puig Lectures, problems and practical work (laboratory). Theoretical/practical exam.
Subject Code 20114 Electric and magnetic materials 15 weeks Hours per week 2 Subject type Compulsory 3 The understanding of the minimal theoretical field of knowledge for the qualitative and quantitative characterization of the material related with its behaviour. To deal with easy problems about selection of materials for specific applications in Electric Engineering. Conductor materials. Functional materials. Insulate and dielectric materials. Magnetic materials. Bibliography Smith, W.F.: Fundamentos de la Ciencia e Ingeniería de Materiales, McGraw Hill/Interamericana de España 1998. Mangonon, Pat.L.: Ciencia de Materiales. Selección y Diseño, Prentice Hall, 2001. Gloria Begoña Sánchez Bravo Lectures and problems. Theoretical/practical exam, practical works, oral presentations.
Subject Code 20121 Electric installations Annual Hours per week 3 Subject type Compulsory 9 (ECTC 6 5, class work and papers are not included) The objective is for students to gain the knowledge for an understanding of low tension electrical installations, and the application of this knowledge in electrical projects. BT electrical installation components, standards, symbology, materials, security, protections, calculation process. BT project realization. Bibliography González, B. Instalaciones Eléctricas BT1 y BT2. Popular 2003 Normas UNE instalaciones eléctricas BT. AENOR 2004 R.E.B.T. Reglamento Electrotécnico BT- MICT 2002. Documentación materiales de fabricantes- varios Teoría y practicas: Baldomero González Practicas: José Pardo,José Miguel Carcelen Lectures, oral expositions, course practices, papers. Theoretical and practical exam, course practices, course project defence.
Subject Code 20137 Luminotechnics 1 semester Subject type Optional 6 (ECTC 4 5, class work and papers are not included) The objective is for students to gain the knowledge for an understanding of illumination basis and standards, electrical installation components and the characteristics of design depending on different ambient. Illumination standards and materials, design criteria, electric lighting installation composition, normal calculation process and the application of this in an electric lighting installation project. The realization of interior and exterior illumination projects is needed. Bibliography Class papers. Illumination course. González, B., J.M. Carcelen. - Instalaciones de Iluminación. A. Ruiz, S. Rojas. ETSII Madrid - Normas MV de alumbrado urbano y Normas CEI-UNE - J.I.URRACA Tratado de alumbrado publico. E Donostiarra. Baldomero González, José Miguel Carcelen Lectures, oral expositions, course practices, papers. Course practices, course project defence.
Subject Code 20150 Numerical Calculus 15 week Subject type 0ptative 4,5 This course provides the fundamental numerical thecniques used in engineering. In each method is given a step by step description, theorical considerations, implementation and discussion. Errors. Solving equations of one variable. Solving systems of linear equations: direct methods and iterative methods ( Jacobi and Gauss-Seidel). Polynomial Interpolation. Numerical Differentation and Integration. Ordinary differential equations. Bibliography Mathews, J.H.; Fink, K.D.: Métodos Numéricos con MATLAB. Prentice-Hall, 2000. Burden, R.L.; Faires, J.D. : Análisis Numérico. ITP, 1998 Hermenegilda Macià Lectures, problems and practical work (laboratory). Theoretical/practical work.
Subject Code 20152 Programming of Systems 15 weeks Subject type Optative 4,5 The objective is for students to gain an understanding of windows programming. Introduction to C++ Basic Fundamental in C++ Programming in Visual C++ Bibliography Programación avanzada en Windows. Jeffrey Richter McGrawHill Joaquín Fernández Martínez Lectures Theoretical and practical exam.
Subject Code 20154 (Electrical Engineering) Subject name Waves: Applied Acoustics and Optics 15 weeks (1 st semester) Number of class 4 hours a week periods Kind of subject Optional Subject First Cycle Actual = 6. ECTS = 5 The first objective is to apply the ondulatory model in differents physical systems which have interest for engineers. There are two parts in the subject: 1) Geometrical and specially Physical Optics, focused to interference and diffraction phenomena. 2) Acoustics, including fundamentals and some applications. The second objective is getting students who be able to do physical measurements, to analyse experimental results and to discuss them. The laboratory experiments are the main way to reach that objective, and therefore the laboratory practices are an essential part of this subject. Scope of this course Mechanic and electromagnetic waves. Optics and Acoustics. Bibliography Hecth E. Óptica. Addison Wesley Iberoamericana (1999). Tipler P.A. Física. Tomo II. Reverté (1999). Fishbane P.M. et al. Física para Ciencias e Ingenirería. Prentice- Hall (1994). Harris C.M. (Editor). Manual de Medidas Acústicas y Control del Ruido. McGraw-Hill 3 rd edition (1998) Recuero M. Ingenieria Acústica. Paraninfo (2000). Method Method Dr. Antonio J. Barbero García (antonio.barbero@uclm.es) Classroom lectures (theory and problems), laboratory practices (at least a half of available time), and course materials published for the registered students use in the university network (lecture presentations, question sets, quizzes). The grading to reach a positive evaluation will include 50% for the evaluation of laboratory practices, 35% for the different exams and 15% for personal work (homeworks and classroom discussions, problems resolution).