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Universidad Politécnica de Madrid

Escuela Técnica Superior de Ingenieros de Caminos, Canales y Puertos

Subdirección de Relaciones Internacionales

BASIC GUIDE

GRADO EN INGENIERÍA CIVIL Y TERRITORIAL

(Bachelor Civil Engineering)

Last update: September 2014

IMPORTANT Please note that this is not an official document. Spanish is the official language to publish syllabus and programs. The documents in English are provided for information purposes only and have no legal force. This document has been elaborated by the International Relations Office at ETSICCP-UPM in collaboration with the departments and it is intended as a helpful tool for international students coming to our school. © 2014 Subdirección Relaciones Internacionales, ETS Ingenieros de Caminos, Canales y Puertos, Universidad Politécnica de Madrid.

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CONTENT

1. INTRODUCTION .................................................................................................... 3 2. OVERVIEW OF COURSES .................................................................................... 3 3. COMPETENCES .................................................................................................... 5 3.1. Competences linked to subjects (CM) .................................................................... 5 3.2. Transverse Competences (CT) .............................................................................. 7 4. DESCRIPTION OF COURSES .............................................................................. 8 4.1. 1st and 2nd semesters .............................................................................................. 8 4.2. 3rd and 4th semesters ............................................................................................ 12 4.3. 5th and 6th semesters ............................................................................................ 17 4.4. 7th and 8th semesters ............................................................................................ 22 5. DEPARTAMENTAL INFORMATION .................................................................... 34

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1. INTRODUCTION This guide is intended to inform international students about the content of the subjects of the degree “Grado en Ingeniería Civil y Territorial” (Bachelor in civil engineering). Try to have always the last version of this document from our web page (http://www.caminos.upm.es/internacional/index.htm). 2. OVERVIEW OF COURSES This degree consists of 8 semesters (4 years). Each semester includes 30 ECTS. Most of the subjects are common for all students. Some optional subjects in 6th, 7th and 8th semesters allow reaching a different specialization: 1) Civil constructions; 2) Hydrology; 3) Transports and urban planning.

Sem.

8º

7º

6º

5º

4º

3º

2º

1º

ECTS 1.5 3 4.5 6 7.5 9 10.5 12 13.5 15 16.5 18 19.5 21 22.5 24 25.5 27 28.5 30

Statistics and Optimization Calculus II Chemistry of Materials Physics Graphic Design

Linear Algebra and Geometry Calculus I Business Administration Computer Science Graphic Expression

Field TheoryConstruction and

Building Materials I English Language Geology for Engineers I Physics of Solids and FluidsTopography and

Cartography

Differential EquationsConstruction and

Building Materials II Electrical EngineeringGeology for Engineers

II Strength of Materials Mechanics

General Process of Construction Hydraulics and Hydrology Urban PlanningSoil and Rock

Mechanics Structural AnalysisComputational

Mechanics

Civil Engineering and Environment Maritime Works Hydraulic Infraestructures

Sanitary Engineering for Civil Constructions Geotechnics Concrete and Steel Structures

Construction and PrefabricationPavements and road surfaces for CC /

Geographical Information Systems for CC (see Note 3)

Construction of Concrete and Steel Structures (see Note 3)

Tunnels and Underground Excavations

TransportsRoads for Civil Constructions

BACHELOR IN CIVIL ENGINEERING SPECIALIZATION CIVIL CONSTRUCTIONS

Structural Engineering

Organization of Constructio

Works

Foundation Procedures

Railways for Civil ConstructionsHistory, Art and

Aestethics in Civil Engineering

Final Degree Proyect

Sem.

8º

7º

6º

5º

4º

3º

2º

1º

ECTS 1.5 3 4.5 6 7.5 9 10.5 12 13.5 15 16.5 18 19.5 21 22.5 24 25.5 27 28.5 30

Statistics and Optimization Calculus II Chemistry of Materials Physics Graphic Design

Linear Algebra and Geometry Calculus I Business Administration Computer Science Graphic Expression

Field TheoryConstruction and

Building Materials I English Language Geology for Engineers I Physics of Solids and FluidsTopography and

Cartography

Differential EquationsConstruction and

Building Materials II Electrical EngineeringGeology for Engineers

II Strength of Materials Mechanics

General Process of Construction Hydraulics and Hydrology Urban PlanningSoil and Rock

Mechanics Structural AnalysisComputational

Mechanics

Water Engineering in Urban Zones

Coastal Engineering

Roads for Transports & Urban Services

Civil Engineering and Environment Maritime Works Hydraulic Infraestructures

Sanitary Engineering for Hydrology Geotechnics Concrete and Steel Structures

Electrical Technology

Services, Urban Protection and

Waste M anagement for Hydro logy

Hydrogeology Hydrology and Hydraulic Resources

Design, Landscape and Environmental Restoration for

Hydrology

Water Chemistry

BACHELOR IN CIVIL ENGINEERING SPECIALIZATION HYDROLOGY

Design of Hydraulic Infraestructures

aided by Computer

Thermal Pow er Plants

Geographical Information Systems for Hydrology

Energetic TechnologyHistory, Art and

Aestethics in Civil Engineering

Final Degree Proyect

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Sem.

8º

7º

6º

5º

4º

3º

2º

1º

ECTS 1.5 3 4.5 6 7.5 9 10.5 12 13.5 15 16.5 18 19.5 21 22.5 24 25.5 27 28.5 30

Statistics and Optimization Calculus II Chemistry of Materials Physics Graphic Design

Linear Algebra and Geometry Calculus I Business Administration Computer Science Graphic Expression

Field TheoryConstruction and

Building Materials I English Language Geology for Engineers I Physics of Solids and FluidsTopography and

Cartography

Differential EquationsConstruction and

Building Materials II Electrical EngineeringGeology for Engineers

II Strength of Materials Mechanics

General Process of Construction Hydraulics and Hydrology Urban PlanningSoil and Rock

Mechanics Structural AnalysisComputational

Mechanics

Urban Project TransportsRoads for Transports &

UP

Civil Engineering and Environment Maritime Works Hydraulic Infraestructures

Sanitary Engineering for T. and UP Geotechnics Concrete and Steel Structures

Territorial Systems

Services, Urban Protection and

Waste M anagement for Transports and

UP

Urban Transports Port Operation

Port Engineering

Design, Landscape and Environmental Restoration for Transports and

UP

BACHELOR IN CIVIL ENGINEERING SPECIALIZATION TRANSPORTS AND URBAN PLANNING

Pavements and road surfaces for

Transports and UP

Traff ic Engineering and Traff ic Safety

Geographical Information System for

Transports and UP

Railways for Transports and UPHistory, Art and

Aestethics in Civil Engineering

Final Degree Proyect

Legend

BT: Basic Training STT: Specific Technological TrainingCTCI: Common Training in Civil Engineering CTT: Complementary Technological TrainingSTT: Scientific and Technical Training Subjects of 7th and 8th semesters that are "similar" between specialties

Notes 1. Subjects from 1st to 6th semester are the same for all specialties, even though they are represented by different name and colour. 2. Mobility for outgoing is thought during the 7th semester. 3. It would be possible to modify the curriculum by reducing the optional courses of the CC specialization (Pavement / GIS) from 4.5 to 3 ECTS. Accordingly, the remaining 1.5 ECTS would increase "Construction of Concrete Structures and Steel" (this is however subjected to approval by ANECA)

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3. COMPETENCES The degree “Grado en Ingeniería Civil y Territorial” results in the habilitation to those who successfully finish it for the profession “Ingeniero Técnico de Obras Públicas” in Spain. In agreement with the national regulation (CIN/307/2009), the professional competences achieved are as follows: 3.1. Competences linked to subjects (CM) These competences are achieved by successfully passing the subjects that are specifically related to them. CM11.1. Capacity to apply resources of linear algebra, geometry, differential geometry, differential and integral calculus, differential equations, numerical methods, numerical algorithms, statistics and optimization to solve engineering problems. CM11.2. Optimal capacity to select resources from linear algebra, geometry, differential geometry, differential and integral calculus, differential equations, numerical methods, numerical algorithms, statistics and optimization to solve civil engineering problems. CM11.3. Capacity to apply physical-mathematical modelling for engineering problems in disciplines where elements of linear algebra, geometry, differential geometry, differential and integral calculus, differential equations, numerical methods, numerical algorithms, statistics and optimization are integrated. CM12.1. Spatial vision capacity and knowledge of graphical representation techniques from metric geometry, descriptive geometry, and computer-aided design software. CM12.2. Capacity to select and apply optimally graphic representation techniques based on metric geometry, descriptive geometry, and computer-aided design software to solve civil engineering problems. CM13.1. User-level knowledge of computers and operating systems, and ability to use spreadsheets, databases and mathematical software. CM13.2. Capacity to apply programming languages to computational solutions of civil engineering problems. CM14.1. Understanding and assumption of basic concepts and general laws of mechanics, thermodynamics, fields, waves and electromagnetism, and capacity to apply them to solve Physics-related problems. CM14.2. Capacity to apply the general laws of mechanics, thermodynamics, fields, waves and electromagnetism to solve Physics-related problems, with the most appropriate methodologies for civil engineering. CM14.3. Capacity to predict solutions in civil engineering problems by applying the general laws of mechanics, thermodynamics, fields, waves and electromagnetism together with specific material laws. CM14.4. Capacity to model and predict analytically the mechanical behaviour of rigid solid systems and linear elastic solids. CM14.5. Capacity to model and predict computationally the mechanical behaviour of rigid solid systems and linear elastic solids. CM15.1. Basic knowledge of geology and soil morphology (external and internal Geodynamics, Petrology, Mineralogy, Palaeontology and Historical Geology) and capacity to apply them to engineering problems. Basic knowledge of climatology and its relations with engineering. CM15.2. Understanding of interaction between the geological environment and public works and capacity to predict the geological conditions for feasibility, design, construction and operation of public works. CM16.1. Knowledge of how companies perform business administration, institutional and legal framework, organization and management. CM16.2. Understanding of the interaction between the functions of companies, the interaction between companies and markets, strategies and reaction mechanisms. CM16.3. Basic knowledge of laws, legal systems, administrative organization, labour legislation, sector legislation and legal regulations for professional practice of civil engineering at the national and community levels. CM17.1. Knowledge and capacity to apply concepts and techniques of surveying and mapping needed to obtain measurements, derive drawings, establish paths, put into field defined geometries, and control structural movements or land works.

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CM17.2. Knowledge and capacity to apply concepts and techniques of Astronomy, Geodesy, digital models and geographic Information systems to support, complement and enhance surveying and mapping techniques. CM18.1. Theoretical and practical knowledge of chemical, physical, mechanical and technological properties of construction materials. CM18.2. Capacity to identify and select the properties of construction materials. Capacity to derive and implement quality control rules for construction materials. CM18.3. Understanding and capacity to predict the chemical processes that take place in solid media, liquid and gaseous which forms the basis of the use and recycling of soil, pavements and construction materials, preservation of works and structures, durability, water treatment, and environmental protection in civil engineering. CM19.1. Capacity to apply the knowledge on construction materials in structural systems, the relations between structures and mechanical properties of materials. CM19.2. Understanding of physicochemical mechanisms that determine the life-cycle stages of construction materials (manufacture, use, disposal and recycling), their durability and impact on the environment. CM20.1. Capacity to analyze and understand how the mechanical characteristics influence the structural behaviour. Capacity to apply the knowledge on how resistant structures work to design them according to existing regulations. Use of analytical and numerical methods. CM20.2. Capacity to analyze and design structural elements with analytical models with nonlinear mechanical behaviour. CM20.3. Capacity to analyze and design structures with interactive resistant mechanisms by using analytical and computational models in agreement to codes. CM21.1. Knowledge of geotechnics, soil and rock mechanics and capacity to apply them in civil engineering studies, projects, construction works and operations. Application to land movements, foundations and retaining walls. CM21.2. Understanding and capacity to apply predictive models on water flows in soils, mechanical behaviour and structural failure of soils and rocks. CM22.1. Knowledge of the fundamentals of the behaviour of concrete, steel and composite structures, and capacity to conceive, design, build and maintain these structures. CM22.2. Capacity to apply the rules and codes to design and analyze constructive details in reinforced concrete structures and steel structures. CM23.1. Knowledge of concepts and technical aspects of pipeline and water transport systems. CM24.1. Knowledge of basic concepts of surface and groundwater hydrology. CM25.1. Capacity to analyze the importance of health and safety in construction works. CM26.1. Fundamental knowledge about power electric system: power generation, transport, delivery and distribution, and about types of lines and drivers. Knowledge of regulations on low and high voltage. CM26.2. Capacity to apply the theory of electric circuits (DC, AC, and polyphase AC) and magnetic circuits. Understanding of the operation of electric machines and their applications. Knowledge of the basics of lighting. CM27.1. Capacity to apply methodologies for environmental impact assessments. CM28.1. Knowledge of construction procedures and construction machines. Organizational skills, measurement and valuation of construction works. CM28.2. Capacity to plan, organize and manage the execution of public works. CM29.1. Knowledge of types and basis of calculation of prefabricated elements and to apply them in manufacturing processes. CM30.1. Knowledge of the design, calculation, construction and maintenance of public works in terms of structure, finishing, installations and equipment. CM30.2. Capacity to apply quality control systems in construction. CM31.1. Capacity to control and organize construction and conservation of marine works. CM31.2. Understanding of the interaction weather-wind-waves-coast and the conditions imposed to marine works. CM32.1. Capacity to construct and maintain roads, dimensioning and design road layers. CM32.2. Understanding and capacity to quantify road and traffic variables that determine safety, quality and sustainability of road transport infrastructure. CM33.1. Capacity to construct and maintain railway lines and to implement specific technical regulations, by recognising the different mobile material characteristics. CM33.2. Understanding of the theoretical models that explain the mechanical behaviour of railway lines, the train-track interaction, and their influence on the design specifications.

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CM34.1. Capacity to implement construction procedures, and organize construction machines and construction techniques. CM35.1. Capacity to construct geotechnical works. CM36.1. Knowledge and understanding of water supply and sanitary systems and their dimensioning, construction and maintenance. CM37.1. Knowledge and capacity to design and dimensioning hydraulic works and installations, hydroelectric energy systems, organization and management of water resources. CM37.2. Understanding and applicability of structural models for hydraulic infrastructures. CM37.3. Understanding and applicability of hydrological models for surface and groundwater. CM37.4. Understanding the fundamentals of renewable energy systems. CM38.1. Knowledge and understanding of ecosystem functioning and environmental factors. CM38.2. Understanding and capacity to apply methodologies for environmental restoration. CM39.1. Knowledge of urban service projects related to the distribution of water and sanitation. CM39.2. Quantitative understanding of water demand. CM40.1 Knowledge of the regulatory framework of urban management. CM40.2. Understanding of urban phenomena and their conditions (history, economics, mobility, human activity). CM40.3. Understanding and capacity to derive urban projects. CM41.1. Knowledge of the influence of infrastructure in regional planning and participate in the development of urban public space, and in projects of urban services, such as water supply, sanitary infrastructures, waste management, transportation systems, traffic, lighting, etc... CM42.1. Knowledge of the design and operation of modal infrastructures, such as ports, airports, railway stations and transport logistics centres. CM43.1. Synthesis, integration and understanding of the skills acquired in an original professional project of civil engineering, to be done individually, capacity to present and defend it to a university jury. CM43.2. Understanding and capacity to derive civil engineering projects. CM43.3. Assumption of the principles of universal accessibility and design in civil engineering. CM44. Assessment of the historical, social, economic, environmental, cultural, political and global effects of civil engineering works. CM45. Understanding and assumption of the principles of uncertainty, risk and opportunity in the application of methods and models of civil engineering. 3.2. Transverse Competences (CT) These competences are general skills and they affect the degree as a whole. CT1. Commitment and capacity to apply the principles of sustainability in professional activities. CT2. Capacity to organize and put in order the efforts of small, homogeneous groups of people. CT3. Capacity to perform effectively as a member of interdisciplinary teams. CT4. Capacity to prepare oral, written and graphic communications. CT5. Versatility and capacity for independent learning. CT6. Commitment and capacity to implement the standards of professional conduct. CT7. Understanding and capacity to use information systems and TIC, including the platforms provided by the UPM to support teaching and learning. CT8. Technical communication skills in spoken and written English, with previous accreditation of Level B2 according to the Common European Framework of Reference for Languages. CT9. Capacity to design, analyze and interpret experiments relevant to civil engineering.

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4. DESCRIPTION OF COURSES 4.1. 1st and 2nd semesters SUBJECT Calculus IName in Spanish Cálculo IECTS 6 Type Obligatory Semester 1st Code 45001101 Responsible person Prof. Mª Dolores López González E-mail marilo.lopez@upm.es Department Applied Mathematics to Civil

Engineering Language Spanish

Requirements Mathematics Competences CM11.1, CM11.2, CT5 Keywords Mathematics, Calculus, Real Functions Content 1. Real and complex numbers.

2. Limits. 3. The derivative. Applications of the derivative 4. The integral. Applications of the integral 5. Calculation of displacements. 6. Function of two or more variables.

SUBJECT Mathematics I (Linear Algebra and Geometry) Name in Spanish Matemáticas I (Álgebra y Geometría) ECTS 6 Type Obligatory Semester 1st Code 45001102 Responsible person Prof. Manuel Pastor E-mail manuel.pastor@upm.es Department Applied Mathematics and Computer

Science Language Spanish

Requirements Mathematics Competences CM11.1, CM11.2, CT5 Keywords Algebra, Calculus Content 1. Functions, limits, derivatives.

2. Integration techniques. 3. Functions in 2D. 4. Gradients, directional derivatives. 5. Area, volume and line integrals. 6. Integral theorems. 7. Matrices, determinants and systems of linear equations. 8. Vector spaces. 9. Linear applications. Eigenvalues and eigenvectors

SUBJECT Business AdministrationName in Spanish EmpresaECTS 6 Type Obligatory Semester 1st Code 45001103 Responsible person Prof. Antonio Sánchez Soliño E-mail antonio.sanchezso@upm.es Department Civil Engineering-Construction Language Spanish Requirements None Competences CM16.1, CM16.2, CM16.2, CT5 Keywords Management; industrial organization; construction sector; finance; firm;

economics Content 1. Firm theory and industrial organization. Production function.

2. Construction sector. Public services. 3. Investment analysis. 4. Accounts and balance sheet of the firm. 5. Financial markets. 6. Project finance. 7. Economic environment. 8. Institutional and legal environment.

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SUBJECT Graphic expressionName in Spanish Expresión gráficaECTS 6 Type Obligatory Semester 1st Code 45001105 Responsible person Prof. Antonio Arcos Álvarez E-mail antonio.arcos@upm.es Department Soil Morphology and Engineering Language Spanish Requirements Competences CM12.1, CT5 Keywords Diedric system, spatial vision, metric geometry, technical drawing, curves,

polygons, surfaces, solids, shadows, sectioning, perspective. Content 1. Plane Geometry:;;

1.1. Polygons 1.2. Plane curves 1.3. Geometric constructions

2. Solid Geometry:;;, 2.1. Polyhedrons 2.2. Geometric constructions 2.3. Cone 2.4. Cylinder and sphere

3. Technical Drawing for Civil Engineering:;;;; 3.1. Diedric System 3.2. Dimensioning 3.3. Isometric System 3.4. Cabinet Projection 3.5. Conical Perspective

SUBJECT Computer scienceName in Spanish InformáticaECTS 6 Type Obligatory Semester 1st Code 45001104 Responsible person Prof. Israel Herráiz Tabernero E-mail israel.herraiz@upm.es Department Mathematics and Computing

Applied to Civil Engineering Language Spanish

Requirements Competences CM13.1, CM13.2, CT4, CT5, CT7 Keywords Programming languages, algorithms, graphs, computational mathematics Content 1. Language Fundamentals: Syntax, operators, matrices and arrays, data types.

2. Programming Scripts and Functions: Control flow, scripts, functions, data and file management.

3. Graphics: Two- and three-dimensional plots. 4. Computational Mathematics: Algorithms applied to problems of linear

algebra, numerical integration, optimization and interpolation SUBJECT Calculus IIName in Spanish Cálculo IIECTS 6 Type Obligatory Semester 2nd Code 45001106 Responsible person Prof. Mariano Soler E-mail mariano.soler@upm.es Department Applied Mathematics to Civil

Engineering Language Spanish

Requirements Competences CM11.1, CM11.2, CT5 Keywords Differential geometry, differential equations, differential and integral calculus,

multivariable, complex numbers Content 1. Multivariable Integral Calculus

2. Integral calculus on curves and surfaces 3. Improper Integrals. Sequences. Series. 4. First-order ordinary differential equations 5. Constant coefficient linear differential equations 6. Laplace transform 7. Introduction to first integrals

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SUBJECT Statistics and OptimizationName in Spanish Estadística y OptimizaciónECTS 6 Type Obligatory Semester 2nd Code 45001107 Responsible person Prof. Israel Herraiz Tabernero E-mail israel.herraiz@upm.es Department Mathematics and Computing Applied

to Civil Eng. Language Spanish

Requirements None Competences CM11.1, CM11.2, CT5Keywords Statistics; Probability; Probability models; Sampling; Estimation; Inference;

Quality Control; OptimizationContent 1. Probability

2. Random variables 3. Probability models 4. Central Limit Theorem and its applications 5. Sampling theory 6. Estimation theory 7. Hypothesis testing 8. Standard statistical tests 9. Statistical modelling of extreme values 10. Quality Control 11. Linear programming 12. Graph theory

PhysicsName in Spanish FísicaECTS 9 Type Obligatory Semester 2nd Code 45001108 Responsible person Prof. Andrés Valiente E-mail andres.valiente@upm.es Department Materials Science Language Spanish Requirements Calculus I; Mathematics I (Linear Algebra and Geometry) Competences CM14.1,CM14.2, CM 45, CT5,CT9 Keywords Torque, momentum, forces, dynamic, kinematic, statics, thermodynamics, vectors,

rigid bodies, electromagnetism, units, friction Content 1. Sliding vectors

2. Kinematic of a material point 3. Dynamic laws 4. Dynamic of material point 5. Geometry of masses 6. Plane kinematic of rigid bodies 7. System dynamics 8. Rigid bodies dynamics, rotation and translation 9. Vibration of Rigid Bodies: Pendulum, momentum and energy conservation 10. Plane statics of a rigid body 11. Introduction to mechanics of Hookean materials 12. Introduction to fluid statics 13. Thermodynamic, systems in equilibrium 14. First Law of Thermodynamics 15. Second Law of Thermodynamics 16. Multiphase systems 17. Thermodynamic applied to air 18. Heat transfer 19. Wave phenomena 20. Electrostatics 21. Magnetostatics 22. Laboratory

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SUBJECT Materials chemistryName in Spanish Química de MaterialesECTS 4.5 Type Obligatory Semester 2nd Code 45001109 Responsible person Prof. Amparo Moragues E-mail amparo.moragues@upm.es Department Civil engineering: Construction Language Spanish Requirements Competences CM18.1, CM18.3, CT1, CT5,CT9 Keywords Acids, bases, primary cell, redox, solutions, construction, materials, molecules,

phase Content 1. Fundamental chemistry: Solutions; acid-base equilibrium; solubility and redox

equilibrium. 2. State of matter: characteristics and properties 3. Phase transition 4. Metallic materials 5. Alloy 6. Oxidation of metals: Corrosion 7. Chemistry of Silicon 8. Clay 9. Cement 10. Main organic materials for construction

SUBJECT Graphic designName in Spanish Diseño graficoECTS 4.5 Type Obligatory Semester 2nd Code 45001110 Responsible person Prof. Antonio Arcos Álvarez E-mail antonio.arcos@upm.es Department Soil Morphology and Engineering Language Spanish Requirements Graphic expression Competences CM12.2, CT5 Keywords Contour line, CAD, construction, technical drawing, space Content 1. Contour Maps

1.1. Point and line 1.2. Intersection 1.3. Auxiliary view 1.4. Parallelism and perpendicularity 1.5. Distances and angles 1.6. Ground representation (topographic maps)

2. Uses of Contour Maps 2.1. Roofs 2.2. Bulk earthworks, platforms, rafts, excavations, embankments and cuts 2.3. Linear infrastructures 2.4. Dams 2.5. Ports 2.6. Stratigraphy

3. CAD 3.1. Introduction 3.2. Commands and functions 3.3. Text and geometric dimensioning 3.4. Blocks, attributes and external reference 3.5. Drawing digitalization 3.6. Plot and print

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4.2. 3rd and 4th semesters SUBJECT Field TheoryName in Spanish Teoría de CamposECTS 4,5 Type Obligatory Semester 3rd Code 45001201 Responsible person Prof. Juan A. Barceló E-mail juanantonio.barcelo@upm.es Department Applied Mathematics to Civil Eng. Language Spanish Requirements Linear Algebra and Geometry, Calculus I, Calculus II, Statistics and Optimization Competences CM11.3, CM45, CT5 Keywords Tensors, Vector Field, differential operators, field integration theorems, differential

geometry Content 1. Tensor Algebra. Cartesian coordinates. General coordinates. Eigenvector

representations. 2. Coordinate systems and variable bases. Classic systems of coordinates. 3. Basic calculus of vector and tensor fields. Differentiation of fields. Classic

differential operators: Cartesian and curvilinear expressions. 4. Differential Geometry of a space curve. Frenet trihedron, curvature and

torsion. Frenet formulas. 5. Differential geometry of a surface. Parameterization, coordinate lines and

natural base. Fundamental Forms and curvature tensor of surface. 6. Fields integration theorems. Line, surface and volume integrals. Green,

Stokes and Gauss theorems. SUBJECT Construction and Building Materials I Name in Spanish Materiales de Construcción IECTS 4.5 Type Obligatory Semester 3rd Code 45001202 Responsible person Prof. Jaime Gálvez E-mail jaime.galvez@upm.es Department Civil Engineering: Construction Language Spanish Requirements Physics, Materials chemistry Competences CM18.2, CM19.1, CM19.2, CT5, CT9 Keywords Steel, materials behaviour, glass, composites, wood, test, iron and steel industry

processes Content 1. Introduction

1.1. Materials through history 1.2. Materials for civil engineering and building 1.3. Constitution of matter and solid-state

2. Materials properties 2.1. Physical properties 2.2. Behaviour of materials under stress

3. Materials Knowledge 3.1. Introduction to metallic materials 3.2. Properties of metallic materials 3.3. Structural steel 3.4. Treatments of steel 3.5. Steel production 3.6. Classification of iron and steel industry products 3.7. Construction metal products 3.8. Durability of metal products 3.9. Ceramic materials 3.10. Glass 3.11. Wood 3.12. Plastic and polymers 3.13. Introduction to composite materials 3.14. Mechanical behaviour of composite materials 3.15. Material selection and environment

      

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SUBJECT EnglishName in Spanish InglésECTS 6 Type Compulsory Semester 3rd Code 45001203 Responsible person Prof. Rafael Rigol Verdejo E-mail rafael.rigol@upm.es Department Linguistics Applied to Science and

Technology Language English

Requirements Level B2 from the “Common European Framework of Reference for Languages” Competences CT4, CT5, CT7, CT8 Keywords Reading. Writing. Listening. Speaking. Translating. Academic and professional

English for Civil Engineering. Content 1. Reading techniques: scanning and skimming. Coherence and cohesion in

civil engineering texts. 2. Analysing internet websites: critical evaluation. 3. Predicting meaning from technical contexts. 4. Interpreting graphs, diagrams and tables 5. Summarizing information from a civil engineering text. 6. Revising different types of essays practising sequence signalling markers

and connectors. 7. Developing written accuracy: punctuation, spelling, cohesive and coherent

devises. Precise selection of terms. 8. The report layout. 9. Listening to lecturers and note-taking. 10. Pronunciation: learning the phonemic symbols (phonetic transcription

practice). 11. Oral presentations on civil engineering issues. 12. Participating in seminars. 13. Interpreting and translating civil engineering texts from English into Spanish

and from Spanish into English. SUBJECT Geology for Engineers IName in Spanish GeologíaECTS 4.5 Type Obligatory Semester 3rd Code 45001204 Responsible person

Prof. Eugenio Sanz E-mail eugenio.sanz@upm.es

Department Soil Morphology and Engineering Language Spanish Requirements Is not mandatory, but it is recommendable to have knowledge of Spain’s

geography Competences CM15.1, CM15.2 CT3, CT9 Keywords Rocks and its nature, soils, sands, strata, clay, loess, minerals, civil constructions,

landscape, physical geography, geological periods Content Geodynamic, crystallography, palaeontology

1. Introduction to applied geology and to civil constructions 2. Internal geodynamics 3. Climatology and external geodynamics 4. Crystallography and mineralogy 5. Petrology 6. Palaeontology and historical geology

Laboratory Practices of geologic mapping

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SUBJECT Physics of Solids and FluidsName in Spanish Física de Sólidos y FluidosECTS 6 Type Obligatory Semester 3rd Code 45001205 Responsible person

Prof. Andrés Valiente E-mail andres.valiente@upm.es

Department Materials Science Language Spanish Requirements Calculus II, Statistics and Optimization, Physics Competences CM11.1, CM11.2, CT5 Keywords Dynamics, torque, momentum, forces, dynamic, kinematic, statics,

thermodynamics, vectors, rigid bodies, electromagnetism, friction Content 1. Central Force motion of a particle

2. Composite motion: velocity, acceleration and dynamics of non-inertial reference frames

3. Geometry of masses 4. Kinematics of rigid bodies in general spatial motion 5. Dynamics of rigid bodies in plane motion 6. Vibration of rigid bodies: momentum and energy conservation statics 7. Impulse and momentum for planar rigid bodies motion 8. Statics: rigid bodies 9. Advanced fluid statics 10. Fluid dynamics, steady flow 11. Ideal and incompressible fluid dynamics 12. Dynamics of real fluids 13. Applications of first and second law of thermodynamics 14. Multiphase systems processes 15. Heat transfer 16. Surface phenomenon related to surface tension. 17. Spherical waves 18. Wave interference 19. Wave diffraction 20. Electrostatics: conductive materials 21. Electrostatics: dielectric objects 22. Magnetostatics and 23. Introduction to electromagnetism 24. Laboratory

 SUBJECT Topography and CartographyName in Spanish Topografía y CartografíaECTS 4.5 Type Obligatory Semester 3rd Code 45001206 Responsible person Prof. Rubén Martínez Marín E-mail Ruben.martinez@upm.es Department Soil Morphology and Engineering Language Spanish Requirements Calculus I, Physics, Mathematics I, Computer Science, Graphic Expresion Competences CM17.1, CM17.2, CT3, CT5, CT5, CT9 Keywords Triangulation, error correction, GPS, latitude, longitude, geodetic point, level,

reference ellipsoid, Total station, datum Content 1. Fundamentals

2. Error theory 3. Instrumentation 4. Topographic methods: planimetry 5. Topographic methods: tachymeter and height 6. Geodesy 7. Cartography 8. Introduction to astronomy positioning 9. Introduction to photogrammetry 10. Introduction to geographic information systems 11. Topographic practice 12. Digital elevation model practice

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SUBJECT Differential Equations Name in Spanish Ecuaciones DiferencialesECTS 4.5 Type Obligatory Semester 4th Code 45001207 Responsible person Prof. Carlos Castro Barbero E-mail carlos.castro@upm.es Department Mathematics and Computing Applied

to Civil EngineeringLanguage Spanish

Requirements Competences CM11.3, CM45, CT5, Keywords Ordinary Differential Equations, Partial Differential Equations, Numerical

approximation of Differential equationsContent 1. Initial Value problems

2. Numerical approximation of initial value problems 3. Boundary value problems 4. Numerical approximation of boundary value problems: finite differences 5. Introduction to partial differential equations 6. Parabolic problems: heat equation. Finite differences for parabolic problems 7. Hyperbolic problems: wave equation. Finite differences for hyperbolic

problems 8. Elliptic problems: Poisson equation. Numerical approximation of elliptic

problems.  SUBJECT Construction and Building Materials II Name in Spanish Materiales de Construcción IIECTS 4.5 Type Obligatory Semester 4th Code 45001208 Responsible person Prof. Jaime Gálvez E-mail jaime.galvez@upm.es Department Civil Engineering: Construction Language Spanish Requirements Physics; Materials chemistry Competences CM18.1, CM19.1, CM19.2, CT5,CT9 Keywords Bound mixtures, rocks, materials behaviour, proportioning, Content 1. Introduction

2. Natural rock 3. Plaster 4. Quicklime 5. Portland cement: Composition and production 6. Portland cement: Characteristics and hydration 7. Cements 8. Water and aggregates for concrete 9. Aggregate gradation 10. Fresh concrete 11. Additives 12. Proportioning concrete (I) 13. Proportioning concrete (II) 14. Production, transportation and placement of concrete 15. Protect and cure concrete 16. Physical properties of hardened concrete (I) 17. Physical properties of hardened concrete (II) 18. Physical properties of hardened concrete (III) 19. Durability of concrete (I) 20. Durability of concrete (II) 21. Special concretes (I) 22. Special concretes (II) 23. Introduction to bituminous materials 24. Properties of bituminous materials 25. Bituminous materials used in construction 26. Auxiliary materials

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SUBJECT Introduction to Electrical Engineering Name in Spanish ElectrotecniaECTS 6 Type Obligatory Semester 4th Code 45001209 Responsible person Prof. Jesús Fraile Mora E-mail frailemora@caminos.upm.es Department Hydraulics, Energy and

Environment Language Spanish

Requirements Mathematics, Physics and Physics of Solids and Fluids Competences CM26.1, CM26.2, CT5, CT9 Keywords Electric circuits; electric machines; electrical installations. Content 1. Introduction to electrical circuit analysis.

2. Alternating Current circuit analysis. 3. Three-phase circuit analysis. 4. Magnetic materials and circuits. 5. Electric machines. General aspects. 6. Transformers. 7. Induction machines. 8. Power stations. 9. Distribution lines. 10. Electric lighting.

SUBJECT Geology for Engineers IIName in Spanish Geología aplicada a las Obras Públicas ECTS 4.5 Type Obligatory Semester 4th Code 45001210 Responsible person Prof. Eugenio Sanz E-mail eugenio.sanz@upm.es Department Soil Morphology and Engineering Language Spanish Requirements Is not mandatory, but it is recommendable to have knowledge of Spain’s

geography and prior knowledge of Geology Competences CM15.1, CM15.2, CT3, CT9 Keywords Tunnels, cuts, embankments, exploration, quarry, dams, hydrogeology, rock

uses, environment,  preventive measures, soil concerns, geophysic, photogeology, endogenous rocks, volcanics, Metamorphic rock, seismic, sedimentary rocks

Content Applied geology and petrology 1. Applied petrology 2. Geological applications Laboratory Practices of geologic mapping Field research

SUBJECT Strength of MaterialsName in Spanish Resistencia de MaterialesECTS 6 Type Obligatory Semester 4th Code 45001211 Responsible person Prof. Rafael Fernández Díaz-Munío E-mail rafael.fernandez@upm.es Department Continuum Mechanics and

Structures Language Spanish

Requirements Mathematics, Physics and Physics of Solids and Fluids Competences CM20.1, CM20.2, CT5 Keywords Beams; section analysis; stresses; strains; deflections; frames; arches. Content 1. Hypotheses and definitions.

2. Equilibrium. Internal forces. Statically determined structures. 3. Linear elastic behaviour of materials. Fundamentals of Elasticity. 4. Stresses and strains. 5. Beam deflections. 6. Statically undetermined beams. The force method. 7. Frames and arches. 8. Differential equations for beams and trusses. Elastic buckling. 9. Fundamentals of Plasticity. Section analysis. Statically determined

structures.

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SUBJECT MechanicsName in Spanish MecánicaECTS 4.5 Type Obligatory Semester 4th Code 45001212 Responsible person Prof. José M. Goicolea E-mail jose.goicolea@upm.es Department Continuum Mechanics and

Structures Language Spanish

Requirements Mathematics, Physics and Physics of Solids and Fluids Competencies CM14.4, CM14.5, CM45, CT9 Keywords Kinematics of rigid bodies in 3D; dynamics of particles and systems; analytical

mechanics (statics and dynamics); linear vibrations in systems with one and several degrees of freedom; modal analysis; Dynamics of rigid bodies in 3D; statics of cables.

Content 1. Principles and general theorems of mechanics of mechanical systems. 2. Analytical dynamics: Euler-Lagrange equations 3. Analytical formulation of statics 4. Linear oscillations with one degree of freedom 5. Linear oscillations with several degrees of freedom 6. Kinematics of rigid bodies 7. Dynamics of rigid bodies 8. Applications of the dynamics of rigid bodies 9. Equilibrium of cables and strings.

4.3. 5th and 6th semesters SUBJECT General Process of ConstructionName in Spanish Procedimientos Generales de Construcción ECTS 7,5 Type Obligatory Semester 5th Code 45001301 Responsible person Prof. Manuel Rivas Cervera E-mail manuel.rivas@upm.es Department Civil Engineering: Construction Language Spanish Requirements Mathematics; Physics; Design; Computing; Geology; Construction Materials Competences CM25.1, CM28.1, CM28.2, CT1, CT3, CT4 Keywords Machine; Motors; Lubrication; Explosives; Cables; Pumps; Planning Content 1. Machinery monitoring and maintenance

2. Electric installations and motors 3. Internal combustion engines 4. Ventilation 5. Earth moving machine 6. Specific road and airports building machines 7. Rail track machinery 8. Specific port machinery 9. Production concepts.

SUBJECT Hydraulics and HydrologyName in Spanish Hidráulica e HidrologíaECTS 6 Type Obligatory Semester 5th Code 45001302 Responsible person

Prof. Jaime García Palacios E-mail jaime.garcia.palacios@upm.es

Department Hydraulics, Energy and Environment

Language Spanish

Requirements Mathematics, Physics and Physics of Solids and Fluids Competences CM23.1, CM24.2, CT9 Keywords Hydraulics, Hydrology, Pipelines, channels, Water resources, Fluid mechanics. Content 1. Fluid properties

2. Hydrostatics 3. Steady flow Hydrodynamics. 4. Pressure conductions. 5. Open Channel Hydraulics. 6. Dimensional analysis. 7. Superficial Hydrology. 8. Subterranean Hydrology.

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SUBJECT Urban PlanningName in Spanish UrbanismoECTS 4.5 Type Obligatory Semester 5th Code 45001303 Responsible person

Prof. Juan A. Santamera Sánchez E-mail juanantonio.santamera@upm.es

Department Transports and urban planning Language Spanish Requirements None Competences CM40.1, CM40.2, CM44, CT1 Keywords Planning, norms, policymaking, urban areas, sectors Content 1. Introduction

2. The city as a physical space. Shape and urban design. Elements, parameters and basic knowledge 2.1. Public space: Streets 2.2. Public space: Squares and parks 2.3. Bounded by streets spaces: Urban blocks and constructions 2.4. Basic and transport infrastructure 2.5. Urban morphology and design

3. The city as socioeconomic space 3.1. Activities and residential areas 3.2. Economic urban activities: Industry and services

4. Norms and spaces. Policymaking and institutions 4.1. Urban land norms. Evolution and current condition 4.2. Property right and urbanism: urban planning, rights and duties,

exploitation. 4.3. Planning system

5. Municipal planning 5.1. General planning 5.2. Local planning 5.3. Other planning procedures 5.4. Planning and sustainable develop

6. Plan realization 6.1. Development 6.2. Urban projects 6.3. Control and protection of urban laws 6.4. Land market and government intervention

7. Urban transportation 7.1. Demand and supply 7.2. Transport sustainable plans

8. Real estate market 8.1. Introduction to real estate market 8.2. Production process. Land and housing policies

9. Practices SUBJECT Soil and Rock MechanicsName in Spanish Mecánica de Suelos y RocasECTS 4.5 Type Obligatory Semester 5th Code 45001304 Responsible person Prof. Rafael Jiménez Rodríguez E-mail rafael.jimenez@upm.es Department Soil Morphology and Engineering Language Spanish Requirements Physics of Solids and Fluids; basic subjects Competences CM21.2, CM45, CT9, CT5 Keywords pressure bulb, settlement, clays, Content 1. Description, classification and basic properties

2. Earth pressure 3. Soil and water 4. Compression and consolidation of soil 5. Soil strength 6. Semi-saturated soil. Compaction. Expansive and collapse. 7. Laboratory of Soil and Rock Mechanics

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SUBJECT Structural AnalysisName in Spanish Cálculo de EstructurasECTS 4.5 Type Obligatory Semester 5th Code 45001305 Responsible person Prof. Florencio del Pozo Vindel E-mail florencio.delpozo@upm.es Department Continuum Mechanics and

Structures Language Spanish

Requirements Strength of Materials, Mechanics Competences CM20.3, CM45, CT5 Keywords Structures, trusses, frames, plates, shells. Content 1. Elastic analysis of plane trusses

2. Elastic analysis of plane grids 3. Elastic and plastic analysis of plates 4. Basics of Shell analysis 5. Basics of matrix method for analysis of prismatic element structures

SUBJECT Computational MechanicsName in Spanish Mecánica ComputacionalECTS 3 Type Obligatory Semester 5th Code 45001306 Responsible person Prof. Felipe Gabaldón E-mail felipe.gabaldon@upm.es Department Continuum Mechanics and

Structures Language Spanish

Requirements Mechanics, Mathematics, Physics of Solids and Fluids, Computing Competences CM13.2, CM14.4, CM14.5, CM45, CT9 Keywords Rigid bodies, Non-linear dynamics, Linear vibrations, n-dof systems, Linear

elasticity, Finite element methods. Content 1.1 Rigid body kinematics with finite rotations.

1.2 Lagrange equations for rigid body dynamics and their numerical integration. 1.3 Rigid body dynamics with constraint equations. 2.1 Linear oscillations of 1-dof systems. 2.2 Linear oscillations of n-dof systems. 2.3 Computational techniques for eigenvalue problems. 2.4 Numerical integration of the dynamic equations in the time domain. 2.5 Numerical integration of the dynamic equations in the frequency domain 5.1 Review of basic concepts in linear elasticity 5.2 Strain energy. Principle of virtual work. 5.3 Introduction to the finite element method.

SUBJECT Civil engineering and environment Name in Spanish Ingeniería Civil y Medio AmbienteECTS 3 Type Obligatory Semester 6th Code 45001307 Responsible person Prof. Rosa María Arce Ruiz E-mail rosa.arce.ruiz@upm.es Department Transports and urban planning Language Spanish Requirements Basic subjects Competences CM27.1, CM44, CT1, CT3 Keywords Sustainability, develop, construction, impact , river banks, littoral, waterworks,

sewers, landfill, laws Content 1. Basic principles

1.1. Introduction 1.2. Sustainability and develop 1.3. Environmental-impact of civil constructions

2. Legal framework. Environmental impact assessment as a prevention tool 2.1. Legal and institutional framework of planning and environmental

protection. 2.2. Legal framework of environmental impact assessment

3. Environmental impact assessment 3.1. Project analysis 3.2. Environmental inventory 3.3. Identification of impact valuation 3.4. Alternatives valuation and selection of the most suitable 3.5. Corrective measures. Environmental restoration 3.6. Environmental surveillance program 3.7. Environmental sustainability report

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SUBJECT Maritime WorksName in Spanish Obras MarítimasECTS 4.5 Type Obligatory Semester 6th Code 45001308 Responsible person Prof. J. Javier Diez González E-mail josejavier.diez@upm.es Department Hydraulics, Energy and Environment Language Spanish Requirements Statistic, Geology, Materials, Hydraulic Engineering, Geotechnics Competences CM31.1, CM31.2, CM45, CT1 Keywords Wave Climate, Sediment transport, Coastline evolution, Harbour, Breakwaters,

Docks Content 1. Introduction and basic concepts.

2. The vessel and the goods. 3. Climate. Atmosphere and hydrosphere. Applied marine climatology. 4. Wave climate. Description of the average and extreme wave events. 5. Sea levels and their changes. Sea level and wave interactions. 6. Maritime works vulnerability. 7. The port. The harbour. Layout. 8. Breakwaters: Roubble mound, vertical and composite. 9. Mooring and berthing maritime works 10. Coastal dynamics. Impacts. 11. Littoral landscape. Coastal engineering and coastal planning. 12. Ocean energy. Types of energy converters, mooring and berthing, coastal

impacts. SUBJECT Sanitary engineeringName in Spanish Ingeniería SanitariaECTS 4.5 Type Obligatory,

different for each speciality

Semester 6th Code 45001309 / 45001313

Responsible person Prof. José Rubió Bosch E-mail jose.rubio@upm.es Department Transports and urban planning Language Spanish Requirements Hydraulic, Geotechnics, Geology and Structural analysis, Chemistry. Competences CM36.1, CM45, CT1, CT9 Keywords Water supply and sanitation systems; Water and wastewater treatment Content 1. Water quality. Rate of consumption. Source of water supply.

2. Water treatment process technologies 3. Water supply. Collection and distribution. 4. Design and construction of sewers 5. Wastewater treatment and sludge management

SUBJECT Hydraulic InfrastructuresName in Spanish Infraestructuras HidráulicasECTS 4.5 Type Obligatory,

different for each speciality

Semester 6th Code 45001310

Responsible person Prof. Miguel Ángel Toledo Municio E-mail matoledo@caminos.upm.es Department Hydraulics, Energy and

Environment Language Spanish

Requirements Hydraulics, Soil and rock mechanics, Structural computation. Competences CM37.1, CM45 y CT1 Keywords Dams, canals, pipelines, hydroelectric scheme, irrigation, pump. Content 1. Dams

2. Spillways and outlet works 3. Pipelines 4. Pump schemes 5. Canals 6. Hydroelectric schemes 7. Irrigation 8. Defence works against flooding 9. Hydraulic planning.

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SUBJECT GeotechnicsName in Spanish GeotecniaECTS 4.5 Type Obligatory Semester 6th Code 45001311 Responsible person Prof. Jesús González Galindo E-mail jesus.gonzalezg@upm.es Department Soil Morphology and Engineering Language Spanish Requirements Basic module, Soil and Rock Mechanics Competences CM21.1, CM45 Keywords Rankine, settlements, soil, foundations, boiling condition, collapse, embankment

stability Content 1. Groundwater system

2. Applied elasticity in geotechnical engineering 3. Plasticity. Collapse load 4. Plasticity. Rankine model 5. Shallow foundations 6. Deep foundations 7. Contention walls 8. Slope stability 9. Soil Testing Methods 10. Factor of safety. Reliability. Norms

SUBJECT Concrete and Steel StructuresName in Spanish Hormigón y Estructuras MetálicasECTS 9 Type Obligatory Semester 6th Code 45001312 Responsible person

Prof. Hugo Corres Peiretti E-mail hugoeduardo.corres@upm.es

Department Continuum Mechanics and Structures

Language Spanish

Requirements Descriptive Geometry, Physics, Chemistry, Infinitesimal and Integral Calculus, Mechanics and Computers, Strength of Materials

Competences CM22.1, CM22.2, CM45 Keywords Steel, concrete and composite structures. Design basis. Ultimate and

serviceability limit states. Content 1. Introduction to the Steel and Concrete Structures.

2. Mechanical material properties. 3. Basic behaviour of structural elements. 4. Design basis 5. Elastic calculation of sections and elements under bending. 6. Serviceability limits states. 7. Ultimate Limit States due to axial stresses. 8. Ultimate Limit State due to shear forces. 9. Ultimate Limit State of buckling. 10. Connections concrete to concrete, steel to steel and concrete to steel. 11. Bond Stress Limit state. Anchoring and overlapping of reinforcement

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4.4. 7th and 8th semesters

SUBJECT RoadsName in Spanish CaminosECTS 4.5 Type Obligatory Semester 7th Code 45001401

(for CC) 45001408 (for H and TUP)

Responsible Prof. Manuel G. Romana (for CC) Prof. Rafael Jurado (for H and TUP)

E-mail manuel.romana@upm.es rafael.jurado@upm.es

Department Transports and urban planning Language Spanish Requirements Mathematics, Materials, Geometry, Geotechnics, Statistics Competences CM32.1, CM32.2, CM 45, CT1, CT9 Keywords Traffic Engineering, Geometric Design, Cross section, Earthworks, Construction,

Subgrades, Drainage, Pavements, Maintenance. Content 1. ROAD PLANNING AND TRAFFIC ENGINEERING. Road transport, vehicles

characteristics and performance, traffic counts, speed, flow, and density, level of service, capacity, traffic signing and road marking.

2. GEOMETRIC DESIGN. Speed and sight distances, road alignments and grades, cross-section elements, coordination between alignmentsand profile, intersections, interchanges and roundabouts, use of computers in road design.

3. EARTHWORKS, SUBGRADES AND DRAINAGE. Geotechnical surveys, soil classifications, earthworks, capping layers, compaction, bearing capacity, construction, erosion, drainage.

4. PAVEMENTS. Principles of design, basic materials, structural design, surface characteristics, maintenance and rehabilitation.

SUBJECT Transports and urban planningName in Spanish TransportesECTS 4.5 Type Obligatory

for CC and TUP

Semester 7th Code 45001417

Responsible person Prof. Aniceto Zaragoza E-mail aniceto.zaragoza@upm.es Department Transports and urban planning Language Spanish

Requirements Basic module; Topography; Civil engineering and environment Competences CM16.1, CM16.2, CM40.2, CM41.1, CM42.1, CT1, CT2, CT3, CT4

Keywords Intermodal transport, European transport policy, evolution, transportation systems, cargo, passengers, regional development, networks, TEN-T, modes, TICs, accident rate.

Content 1. Transportation Sector 2. Principles of Economics and Transport Policy 3. Social and territorial impact of Transport Policy 4. Challenges for the Transportation Sector

SUBJECT Tunnels and underground excavations Name in Spanish Túneles y excavaciones subterráneas ECTS 3 Type Obligatory

for CC and TUP

Semester 7th Code 45001429

Responsible person Prof. Antonio Soriano E-mail antonio.soriano@upm.es Department Soil Morphology and Engineering Language Spanish Requirements Geology for Engineers I; Geology for Engineers II; Geotechnics; Soil and Rock

Mechanics Competences CM34.1, CM35.1, CT2, CT3, CT4 Keywords Explosives, Tunnel boring machine, water presence, excavated section Content 1. Typologies of underground works

2. Excavation methods 3. Supports 4. Construction systems and phases 5. Geological aspects

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6. Geomechanical classification 7. Geotechnical aspects 8. Practical case study

SUBJECT Building Construction and Prefabrication Name in Spanish Edificación y PrefabricaciónECTS 7.5 Type Obligatory

for CC Semester 7th Code 45001402

Responsible person Prof. Jaime Fernández-Gómez E-mail jfernandez@caminos.upm.es Department Civil Engineering: construction Language Spanish Requirements Concrete and steel structures Competences CM29.1, CM30.1, CM30.2, CT2, CT3, CT4 and CT5 Keywords Prefabrication; building Content 1. Building construction. Introduction.

2. Buildings with concrete structures. 3. Buildings with steel structures. 4. Buildings with masonry and wood structures. 5. Quality assurance. 6. Façades, partitions and windows. 7. Building systems. 8. Prefabrication.

SUBJECT Pavements and Road SurfacesName in Spanish Firmes y pavimentosECTS 4.5 Type Optional for

CC Semester 7th Code 45001406

Responsible person Prof. Miguel Ángel del Val Melús E-mail miguel.delval@upm.es Department Transports and urban planning Language Spanish Requirements Basic Module; Construction and Building Materials; Strength of Materials; Soil

and Rock Mechanics; General Process of Construction; English Competences CM32.1, CM34.1, CT2, CT3, CT6 Keywords Granular layers, surface dressings, asphalt mixtures, maintenance and

rehabilitation, surface characteristics Content 1. Introduction

2. Basic materials 3. Base and sub-base layers 4. Pavements 5. Road pavement design 6. Rehabilitation methods

SUBJECT Water ChemistryName in Spanish Química del aguaECTS 3 Type Obligatory

for H Semester 7th Code 45001415

Responsible person Prof. Amparo Moragues Terrades E-mail amparo.moragues@upm.es Department Civil Engineering: Construction Language Spanish Requirements Basic concepts of chemistry. Fundamentals of chemical equilibrium Competences CT1,CT5,CT9, CM18,1(part) CM18.3( part) Keywords Water properties, Pollutants, Quality indicators. Wastewater treatments, Indicators Content 1. Introductions: Water and living things

2. Chemical proprieties of water. 3. Physical properties of water. 4. Water pollution I: Pollution definition, Types of contaminant. 5. Water pollution II: Biological Contamination 6. Water pollution III. Organic Pollutants 7. Water quality criteria. 8. Introduction to the Framework Directive. 9. Establishment of environmental quality standards 10. Wastewater treatments.

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SUBJECT Introduction to Electrical Technology Name in Spanish Tecnología EléctricaECTS 3 Type Obligatory

for H Semester 7th Code 45001409

Responsible person Prof. Nieves Herrero Martínez E-mail nieves.herrero@.upm.es Department Hydraulics, Energy and Environment Language Spanish Requirements Introduction to electrical engineering Competences CM37.1, CM37.4, CT2, CT3, CT6 Keywords Power lines; distribution systems; protections Content 1. Power lines. Steady state analysis. Electrical design.

2. Mechanical design of overhead power lines. 3. Calculation of fault currents. 4. Overcurrent and overvoltage protections. 5. Grounding systems in distribution networks. 6. Electrical contact protection. 7. Transformers.

SUBJECT Services, urban planning and waste management Name in Spanish Servicios, protección del medio urbano y gestión de residuos ECTS 3 Type Obligatory

for H and TUP

Semester 7th Code 45001410 (for H) 45001422 (for TUP)

Responsible person Prof. Gloria Lopez Fernandez E-mail gloria@caminos.upm.es Department Transports and urban planning Language Spanish Competences CM 37.4.CM 39.1. CM 38.2. CM 40.2.CT 9.CT 1. Keywords Urban Services – Waste-Landfill – Contaminated Soil- Soil Remediation-

Noise&Air Pollution- renewable energies. Content 1. Urban Services.

2. Waste Management. Landfills. 3. Contaminated Soils . Soil remediation. 4. Noise & Air Pollution. 5. Renewable energies.

SUBJECT HydrogeologyName in Spanish HidrogeologíaECTS 3 Type Obligatory

for H Semester 7th Code 45001411

Responsible person Prof. Eugenio Sanz Díez E-mail esanz@upm.es Department Soil Morphology and Engineering Language Spanish Requirements Geology for Engineers I; Geology for Engineers II; Hydraulics and Hydrology Competences CM37.3, CT2, CT3, CT4, CT6 Keywords Watershed, hydrologic cycle, recharge, impoundment, water wells, karst, coastal

aquifers, vulnerability Content 1. Groundwater and aquifers

2. Flow through porous medium 3. Hydraulics of water catchment 4. Geology and groundwater 5. Groundwater-Surface water Interaction 6. Hydrogeochemistry 7. Methods of study, assessment and exploitation of aquifers

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SUBJECT Hydrology and hydraulic resources Name in Spanish Hidrología y Recursos Hidráulicos ECTS 4.5 Type Obligatory

for H Semester 7th Code 45001412

Responsible person Prof. Luis Garrote E-mail l.garrote@upm.es Department Hydraulics, Energy and Environment Language Spanish Requirements Hydraulics and Hydrology; Hydraulic Infrastructures Competences CM24.1, CM37.1, CM37.3, CT4 Keywords Hydrograph, data analysis, hydrologic design, water Content 1. Hydrometry

2. Statistical methods in hydrology 3. Runoff calculation 4. Flood flow calculation 5. Flood Wave Propagation 6. Hydrological modelling 7. Resources study 8. Water resources planning and management

SUBJECT Water engineering in urban areasName in Spanish Ingeniería del agua en núcleos urbanos ECTS 3 Type Obligatory

for H Semester 7th Code 45001431

Responsible person Prof. Emilio Ramírez Brandín E-mail emilio.ramirez.brandin@upm.es Department Transports and urban planning Language Spanish Requirements Basic module; Sanitary engineering; Civil engineering and environment Competences CM39.1, CM 45, CT9, CT5 Keywords Water usage, contamination, overexploitation, quality control, spillage, guaranty Content 1. Urban water cycle

1.1. Introduction 1.2. Water resources and infrastructures 1.3. Water purification 1.4. Water transportation, storage and distribution 1.5. Sanitary sewer 1.6. Sewage treatment 1.7. Regeneration and reuse of sewage 1.8. Desalination

2. Urban water management 2.1. Legislation 2.2. Management 2.3. Water´s technical and administrative management 2.4. Types of management 2.5. State of water services in Spain 2.6. Water management problems to be solved 2.7. Environmental sensitisation

SUBJECT Coastal EngineeringName in Spanish Ingeniería del LitoralECTS 3 Type Obligatory

for H Semester 7th Code 45001434

Responsible person Prof. J. Javier Diez González E-mail josejavier.diez@upm.es Department Transports and urban planning Language Spanish Requirements Statistic, Geology, Materials, Hydraulic Engineering, Geotechnics. Maritime

Works Competences CM38.1, CM39.2, CM44, CM45, CT2, CT3, CT6 Keywords Currents, Wave Climate, Sediment transport, Coastline evolution, Coastal

protection. Content 1. The coast and littoral landscape

2. Coastal hydrodynamic. Basic concepts. 3. Littoral sediment transport. 4. Beach profiles. 5. Coastline evolution. 6. Estuaries and deltas. 7. Artificial beach nourishment. 8. Coastal protection. Structural design.

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9. Coastal protection. Functional design. 10. Integrated coastal zone management.

SUBJECT Design of landscape and environmental restoration Name in Spanish Diseño, paisaje y restauración ambiental ECTS 3 Type Obligatory

for H and TUP

Semester 7th Code 45001414 (for H) 45001424 (for TUP)

Responsible person Prof. Jorge Bernabéu E-mail jorge.bernabeu@upm.es Department Transports and urban planning Language Spanish Requirements Basic moldule Competences CM38.1, CM38.2, CT3, CT4, CT5 Keywords Culture, ecologic, aesthetic, impact, integration, spaces, visual basin Content 1. Introduction

2. Concept of Landscape 3. Space as a territorial experience 4. Ecosystem functioning and environmental restoration 5. Participatory Spatial Planning process 6. Perception and feeling of landscape 7. Landscape art and art in the landscape 8. Gardens and landscape 9. Civil constructions and landscape 10. Urban landscape and its boundaries 11. Rivers and river banks 12. Beaches and the coast 13. Ports and dikes 14. Bridges and roads 15. Dams Canals

SUBJECT Ports exploitationName in Spanish Explotación de puertosECTS 3 Type Obligatory

for TUP Semester 7th Code 45001420

Responsible person Prof. Alberto Camarero E-mail alberto.camarero@upm.es Department Transports and urban planning Language Spanish Requirements Basic Module; Civil engineering and environment; Mathematic Models for Civil

Engineering; Topography; General Process of Construction Competences CM15.2, CM31.1, CM38.1, CM42.1, CT3, CT4 Keywords Harbour, logistics, ship, vessel, moor, tug, freight, dock Content 1. Introduction to ports sector

1.1. Characteristics and purpose 1.2. Ports evolution

2. Maritime transportation 2.1. European maritime transport policy 2.2. International trade and maritime transportation 2.3. Maritime transport services

3. Ports operations and services 3.1. Ports operations and operations at ports 3.2. Ports services

4. Ports logistics 4.1. Logistical activities zones 4.2. Dry port 4.3. Rail intermodal 4.4. Dry bulk terminals 4.5. Wet bulk cargo terminals 4.6. Container terminals 4.7. General cargo terminal 4.8. Ro-ro terminals 4.9. Passanger terminals 4.10. Fish terminals

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SUBJECT Port engineeringName in Spanish Ingeniería PortuariaECTS 3 Type Obligatory

for TUP Semester 7th Code 45001423

Responsible person Prof. José Luis Almazán E-mail joseluis.almazan@upm.es Department Transports and urban planning Language Spanish Requirements Basic module; Construction and Building Materials I & II; Strength of Materials;

Hydraulics; Geology; Soil and Rock Mechanics; Maritime Works Competences CM44, CT2,CT3, CT6 Keywords Recommendations for Maritime Works; docks; harbour; port; layout Content 1. Layout, organization and construction of port engineering works and port

facilities 1.1. Types of ports and their traffic 1.2. Typology of port works and facilities: purpose, location and structure 1.3. Design factors that affect Ultimate Limit State 1.4. Design factors that affect Serviceability Limit State

2. Outer harbour engineering 2.1. Breakwaters design 2.2. Dock construction

3. Inner harbour engineering 3.1. Mooring and berthing structures design. ROM 2.0/2011 3.2. Mooring and berthing forces 3.3. Dock construction

4. Port specialization and types 4.1. Port geometry

SUBJECT Urban projectName in Spanish Proyecto urbanoECTS 3 Type Obligatory

for TUP Semester 7th Code 45001436

Responsible person Prof. Tomás Fernández Giménez E-mail tfernandez@upm.es Department Transports and urban planning Language Spanish Requirements Urban Planning Competences CM40.1, CM40.2, CM40.3, CM41.1, CM44, CT2 Keywords Public space; Planning; Streets; Water; Energy; Telecommunication; Networks;

Management; organization Content 1. Project: city and territory

2. Urban planning methods 3. City construction 4. Urban management 5. Example: large urban development, city extensions 6. Example: large urban development, city transformation 7. Urban public space layout 8. Sustainable mobility 9. The street and mobility 10. Urban public space: design sustainability 11. Urban project parameters 12. Urban infrastructures 13. Urbanisation projects and municipal works 14. Execution of urban works 15. Global urbanisation. Urban regeneration

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SUBJECT Territorial systemsName in Spanish Sistemas territorialesECTS 3 Type Obligatory

for TUP Semester 7th Code 45001437

Responsible person Prof. José Luis Zubieta Irún E-mail jlzubieta@Caminos.upm.es Department Transports and urban planning Language Spanish Requirements Basic Module Competences CM40.2, CM41.1, CM42.1, CM44, CT3 Keywords Location; environment; human settlements; evolution; connections; global system Content 1. Spanish territory

2. Territorial systems 2.1. Urban systems 2.2. Land transportation systems 2.3. Ports system 2.4. Airports system 2.5. Other infrastructures system 2.6. Natural landscape

3. Territory management and planning SUBJECT Urban Transports and urban planning Name in Spanish Transportes urbanosECTS 3 Type Obligatory

for TUP Semester 7th Code 45001438

Responsible person Prof. Ángel Aparicio Mourelo E-mail angel.aparicio@upm.es Department Transports and urban planning Language Spanish Requirements Basic Module; Topography and Cartography; Construction and Building

Materials; Graphic design; Mathematic Models for Civil Engineering; General Process of Construction

Competences CM41.1, CM42.1, CT1, CT3, CT4, CT6 Keywords Land use; transport; mobility; pedestrians; public transit; transport system and

networks; urban; evolution Content 1. Framework and planning for urban transportation

1.1. Integral perspective: city, transport and sustainable development 1.2. Historical evolution of urban transportation 1.3. Urban layout, land uses and mobility 1.4. Urban transportation planning. Sustainable mobility plans. Collaborative

planning 2. Characterization of urban transportation demand and supply

2.1. Characterization of urban mobility: data and information sources; indicators; supply-demand models.

3. Urban transport infrastructures. 3.1. Urban transport systems (pedestrian and cycling network; public

transport network; road network) 3.2. Transport grids and public space: design guidelines

4. Conception and management of urban transport services 4.1. Regulatory framework for transport and urban traffic. Finances. 4.2. Public transit planning and operations 4.3. Non-motorized transportation planning and management.

5. Professional Practices in urban transport 5.1. Trends and perspective on urban mobility: technologies, institutions and

norms. 5.2. Urban planning: ethical concerns.

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SUBJECT History, arts and aesthetics in civil engineering Name in Spanish Historia, arte y estética en la ingeniería civil ECTS 4.5 Type Obligatory Semester 8th Code 45001427 Responsible person Prof. Miguel Aguiló Alonso E-mail miguel.aguilo@upm.es Department Transports and urban planning Language Spanish Requirements Basic module; Construction and Building Materials I and II; Strength of Materials;

Hydraulics and Hydrology Competences CM44, CT1, CT3, CT4, CT5, CT6, CT9 Keywords Landscape; construction; public works; development; design; territory;

infrastructures; creation Content 1. Introduction

2. Contemporary bridges 3. Ports, city and landscape 4. Route and high-speed rail 5. Contemporary dams 6. Coast, littoral and landscape 7. Buildings and skyscrapers 8. Concrete and steel-concrete composite bridges 9. Prestressed concrete 10. Concrete and reinforced concrete 11. Suspension and cantilever bridges 12. Truss and arches 13. Steel and glass roofs 14. Industrialisation. Steel and bridges 15. 18th Century engineering. Perronet. Betancourt. 16. Renaissance engineering 17. Renaissance public works 18. Romanesque and Gothic. Structural evolution. 19. Romans territory and construction 20. Classical era. Space organization

SUBJECT Construction of Concrete and Steel Structures Name in Spanish Construcciones de estructuras de hormigón y metálicas ECTS 6 Type Obligatory

for CC Semester 8th Code 45001405

Responsible person

Prof. Hugo Corres Peiretti E-mail hugoeduardo.corres@upm.es

Department Continuum Mechanics and Structures

Language Spanish

Requirements Descriptive Geometry, Physics, Chemistry, Infinitesimal and Integral Calculus, Mechanics and Computers

Competences CM22.1, CM22.2, CM45 Keywords Concrete, steel, composite structures. Ultimate and serviceability limit states.

Detailing. Durability. Execution of steel and concrete structures. Quality control. Content 1. Presentation.

2. Material connection between steel and concrete. 3. Design of slender steel/composite sections. 4. Buckling structures. Imperfections methods. 5. Elastic redistribution in composite and concrete structures. 6. Limit State of punching. 7. Limit state of torsion. 8. Structural Details. 9. Durability. 10. Execution and control quality of steel/composite and concrete structures.

        

30  

SUBJECT Organization of construction works Name in Spanish Organización de obrasECTS 3 Type Speciality Semester 8th Code 45001403 Responsible person Prof. Ildefonso Lucea Martínez E-mail ildefonso.lucea@upm.es Department Civil Engineering: Construction Language Spanish Requirements Basics studies and General procedures of construction Competences CM 25.1,28.1,28.2,30.2,31.1,32.1,33.1,34.1,35.1 Keywords Management, projects, public works, legislation, quality control. Content 1. General Aspects of the Project.

2. Construction Works General Aspects. 3. Legislation. 4. Constructing Procedures. 5. Construction Work Organization 6. The Influence of labor, materials and equipment in the planning and

organizing of construction works. 7. Construction work programming. 8. Execution management of the project. 9. Contracting management. Buying Strategy. 10. Financial Management. 11. Quality Management. 12. Environmental Management. 13. Health & Safety Management. Preventing Occupational Hazards. 14. Conservation and Exploitation. 15. Innovation and the incorporation of new technologies. 16. Leadership and People management.

SUBJECT RailwaysName in Spanish FerrocarrilesECTS 4.5 Type Obligatory

for CC and TUP

Semester 8th Code 45001404 (for CC) 45001419 (for TUP)

Responsible person Prof. José Quereda E-mail jquelav@ciccp.es Department Transports and urban planning Language Spanish Requirements Construction and Building Materials I y II; General Process of Construction;

Geotechnics; Civil engineering and environment; Transports and urban planning; Introduction to Electrical Engineering

Competences CM33.1, CM33.2, CM34.1, CM42.1, CT2, CT3 Keywords Rail; track; ballast; sleeper; concrete slab track; electrification Content 1. Rail transport

2. Track structure 3. Track geometry 4. Vehicles 5. Train movement 6. Substations and overhead lines 7. Railway signal 8. Mechanical behaviour 9. Rail operations 10. Rail track maintenance

SUBJECT Structural engineeringName in Spanish Ingeniería EstructuralECTS 3 Type Obligatory

for CC Semester 8th Code 45001428

Responsible person Pro. Florencio del Pozo Vindel E-mail florencio.delpozo@upm.es Department Continuum Mechanics and

Structures Language Spanish

Requirements Structural Analysis Competences CM20.3, CM45, CT5 Keywords Structures, Dynamics, FEM method, Shells Content 1. Matrix method for analysis of prismatic element structures

2. Finite element method for structural analysis 3. Introduction to Dynamics of structures 4. Basics of Shell analysis

31  

SUBJECT Foundation proceduresName in Spanish Procedimientos de CimentaciónECTS 3 Type Obligatory

for CC Semester 8th Code 45001430

Responsible person Prof. Claudio Olalla Marañón E-mail colalla@caminos.upm.es Department Soil Morphology and Engineering Language Spanish Requirements Geology; Soil and Rock Mechanics; Geotechnics Competences CM 34.1, CM35.1, CT2 CT2 Keywords Foundations, design, piles, load settlement, collapse, limit state design, structural Content 1. Introduction: history and typology

2. Geotechnical investigation and foundation design 3. Spanish and European regulations 4. Shallow foundations 5. Settlement of shallow foundations 6. Deep foundations. Piles. 7. Piles group. 8. Pile loads and settlements. 9. Deep foundations. Micropiles. 10. Ground treatment

SUBJECT Geographical information systems Name in Spanish Sistemas de información geográfica ECTS 3 Type Optional for

CC, obligatory for H and TUP

Semester 8th Code 45001407 (for CC) 45001416 (for H) 45001425 (for TUP)

Responsible person Prof. Rubén Martínez Marín E-mail ruben.martinez@upm.es Department Soil Morphology and Engineering Language Spanish Requirements Topography and Cartography; IT knowledge; DTM Competences CM17.2; CT3; CT5; CT9 Keywords QGIS, LiDAR, Google Earth, DEM, Raster, vector layers, Drainage basin Content 1. General knowledge

2. Quantum GIS (QGIS). Basic Operations 3. Quantum GIS (QGIS. Working with layers 4. Terrain Analysis 5. Operations with rater layers (map algebra) 6. Other formats 7. Final assignment

SUBJECT Energy technologyName in Spanish Tecnología EnergéticaECTS 4.5 Type Obligatory

for H Semester 8th Code 45001433

Responsible person Prof. María José Suárez Navarro E-mail mariajose.suarez@upm.es Department Hydraulics, Energy and Environment Language Spanish Requirements Physics and Physics of Solids and Fluids Competences CM37.1, CM37.4, CM45, CT2, CT3 Keywords Thermodynamics, Thermodynamics cycles, energy efficiency Content 1. Introduction to energy technology.

2. General Thermodynamics. Laws and principles 3. Thermal power plants. Rankine Cycles 4. Thermal Machines and Engines. 5. Renewable Energy. 6. Introduction to hydroelectric developing plans. 7. Energy Efficiency.

32  

SUBJECT Thermal Power Plant EngineeringName in Spanish Ingeniería civil de centrales térmicas ECTS 3 Type Optative for

H Semester 8th Code 45001413

Responsible person Prof. Luis Alberto Sánchez Díez E-mail luisalberto.sanchez@upm.es Department Hydraulics, Energy and

Environment Language Spanish

Requirements Chemistry, Physic, Thermodynamic Competences CM26.1, CM26.2, CT5, CT9 Keywords Power Plant Engineering Content 1. Introduction: Economics of Power Generation

2. Analysis of Steam Cycles 3. Combined Cycle Power Generation 4. Fuels and Combustion 5. Combustion Mechanism, Combustion Equipment and Firing Methods 6. Steam Generators 7. Steam Turbines 8. Condenser, Feed water and Circulating Water Systems 9. Nuclear Power Plants 10. Diesel Engine and Gas Turbines Power Plants

SUBJECT Pavements and Road SurfacesName in Spanish Firmes y pavimentosECTS 3 Type Obligatory

for TUP Semester 8th Code 45001421

Responsible person Prof. Juan Gallego Medina E-mail juan.gallego@upm.es Department Transports and urban planning Language Spanish Requirements Basic Module; Construction and Building Materials; Strength of Materials; Soil

and Rock Mechanics; General Process of Construction; English Competences CM32.1; CT2, CT3, CT4, CT6 Keywords Granular layers, surface dressings, asphalt mixtures, maintenance and

rehabilitation, capping layers, compaction, bearing capacity, cement-bound materials

Content 1. Materials for pavements 1.1. Pavements: functions and types 1.2. Aggregates 1.3. Granular layers 1.4. Cement treated materials: soil cement and gravel-cement 1.5. Materials for subgrade modifications and preparation 1.6. Bituminous binders 1.7. Surface dressings 1.8. Hot bituminous mixtures 1.9. Concrete pavements

2. Pavement project and maintenance 2.1. Empirical pavement design 2.2. Analytical design of pavements 2.3. Pavement Surface Characteristics 2.4. Surface deterioration of pavements 2.5. Structural deterioration of pavements 2.6. Pavement Maintenance. Management

33  

SUBJECT Computer aided design of hydraulic infrastructures Name in Spanish Diseño asistido por ordenador de infraestructuras hidráulicas ECTS 3 Type Obligatory

for H Semester 8th Code 45001432

Responsible person Prof. Eduardo Salete Díaz E-mail esalete@caminos.upm.es Department Hydraulics, Energy and Environment Language Spanish Requirements Hydraulics and Hydrology; Hydraulic Infrastructures; Structural Analysis;

Geotechnics; Soil and Rock Mechanics; Computer science; Mathematics; Strength of Materials; Continuum mechanics

Competences CM37.2, CM45, CT3, Keywords CAD, CAM, CAE, BIM, hydraulic structures, pipe, open channel flow, spillway,

complex structures Content 1. History and concepts

1.1. History 1.2. Basic concepts 1.3. Project organisation

2. Project 2.1. Phases and tools 2.2. Data formats for sharing 2.3. Integration

3. Structural design of hydraulic structures 3.1. Structure CAE analysis 3.2. Pressures

4. Hydraulic design of hydraulic structures 4.1. Basic hydraulics 4.2. CAE Hydraulic Design of complex systems

SUBJECT Traffic and road safety Name in Spanish Tráfico y seguridad viariaECTS 3 Type Obligatory

for TUP Semester 8th Code 45001418

Responsible person Prof. José María Pardillo Mayora E-mail josemaria.pardillo@upm.es Department Transports and urban planning Language Spanish Requirements Basic module; Roads Competences CM32.1, CM32.2, CT4, CT6 Keywords Road, safety, congestion, intersections, roundabouts, junctions, Content 1. Traffic

1.1. Road traffic characterization 1.2. Fundamentals of Traffic Flow Analysis 1.3. Parameters in Traffic Measurement 1.4. Roads capacity and level of service 1.5. Capacity and level of service analysis of signalized intersections 1.6. Traffic light

2. Road traffic safety 2.1. Analysis of road traffic safety 2.2. Safety analysis of roads design 2.3. Roadside Safety Analysis 2.4. Road safety improvement procedures

SUBJECT Bachelor thesisName in Spanish Trabajo Fin de GradoECTS 12 Type Obligatory Semester 8th Code 45001400 Responsible person

Head of Studies E-mail jefe.estudios@caminos.upm.es

Department The department of the supervisor Language Spanish Requirements Basic and common subjects. Competences CM43.1, CM43.2, CM 43.3, CM45, CT1, CT2, CT3, CT4, CT6, CT7 Keywords Engineering Projects; Construction Projects; Design; Professional Engineering

works. Content The bachelor thesis is an individual work carried out by the student under

the supervision of a professor. The content of the project must deal with the professional capabilities of the bachelor.

34  

 5. DEPARTAMENTAL INFORMATION The School of Civil Engineering includes the following departments: Department Director Contact WebCivil Engineering: Construction

Prof. Manuel Rivas Cervera

manuel.rivas@upm.es

http://www2.caminos.upm.es/Departamentos/Construcción2005/index.html

Hydraulics, Energy and Environment

Prof. José Ángel Sánchez Fernández

joseangel.sanchez@upm.es http://www1.caminos.upm.es/diche/

Transports and urban planning

Prof. Alberto Camarero Orive

alberto.camarero@upm.es http://www2.caminos.upm.es/Departamentos/ict/index.html

Soil Morphology and Engineering

Prof. Claudio Olalla Marañón

colalla@caminos.upm.es http://www2.caminos.upm.es/Departamentos/imt/imt.html

Materials Science

Prof. Vicente Sánchez Gálvez

vicente.sanchez@upm.es http://www.mater.upm.es/

Mathematics and Informatics applied to civil eng.

Prof. Manuel Pastor Pérez

manuel.pastor@upm.es http://www2.caminos.upm.es/Departamentos/matematicas/PORTADA.htm

Continuum Mechanics and Structures

Prof. Juan Carlos García Orden

juancarlos.garcia@upm.es http://www2.caminos.upm.es/Departamentos/mmcte/index.htm

Linguistics applied to science and technology

Prof. Ana Mª Roldán Riejos

ana.roldan@upm.es http://www2.caminos.upm.es/Departamentos/Lingüística/index.html