Guías Docentes Electrónicas
1. General information
Course:
BUILDING INSTALLATIONS II
Code:
59320
Type:
CORE COURSE
ECTS credits:
6
Degree:
315 - UNDERGRADUATE DEGREE IN BUILDING ENGINEERING
Academic year:
2020-21
Center:
308 - SCHOOL POLYTECHNIC OF CUENCA
Group(s):
30 
Year:
3
Duration:
First semester
Main language:
Spanish
Second language:
Use of additional languages:
English Friendly:
Y
Web site:
Bilingual:
N
Lecturer: JOAQUIN FUENTES DEL BURGO - Group(s): 30 
Building/Office
Department
Phone number
Email
Office hours
Escuela Politécnica. Despacho 2.03
INGENIERÍA CIVIL Y DE LA EDIFICACIÓN
4838
joaquin.fuentes@uclm.es
The office hour' timetable will be published at the beginning of the semester on the GIE bulletin board, on the Virtual Campus and on the door of office 2.03.

2. Pre-Requisites

It is recommended that the student enrolls in the subject when he has passed the following subjects:

Mathematics Fundamentals I

Mathematics Fundamentals II

Physics Fundamentals I

Physics Fundamentals II

Architectural Drawing I

Construction Materials

Construction I

Construction II

Construction III

Building Facilities I

3. Justification in the curriculum, relation to other subjects and to the profession

This subject, eminently technological, should make known, study and evaluate, within the time possibilities of the curriculum, the answers that man has provided to the establishment and control of different internal environmental conditions, influencing these conditions on:

• Survival and safety (protection against fires, electric shocks, intrusions, etc.).

• Health (quality of air, water, hygiene and sanitation, etc.).

• Performance and comfort (visibility, climate comfort, hearing, movement and transport of people and things, etc.).

Nowadays we can not understand a building without the basic services of water supply, drainage and sanitary, electricity, lighting, air conditioning, telecommunications, etc. While the structure is the skeleton and the envelope the skin, the facilities constitute the circulatory system (energy, fluids, information, etc.).

In this field there are continuous technological developments, standards and standards changes that condition the work of professionals dedicated to the project, assembly, maintenance and control of building facilities, which leads to a practical study and a systematic check of the facts as basic work tool, without doubting or disregarding the theoretical flow of information necessary to understand and analyze the processes described.

The actions that at professional level have relation with the facilities can be very varied. In the preliminary study of the project of a building whose execution will be directed, the Building Engineer must recognize and differentiate the projected facilities, relating them to the rest of the construction, visualizing the building as a body. In this phase, the necessary construction details for the execution of the installations will be prepared or planned, looking for the solutions that best suit the structural and constructive configuration of the building. During the construction of the building they must have the necessary knowledge to supervise, control and plan the assembly work, as well as the tests and inspections that have to be carried out on the assembled installations.

For these tasks, the Building Engineer needs to know and know how to apply the regulations and regulations that govern the different types of facilities. It should not be forgotten that many of these regulations have a marked technical nature, a situation that requires a minimum level of theoretical knowledge to understand and apply properly.

Considering all the above, it is essential to know the intrinsic functioning of the facilities, in order to know which objective and function meet the elements that compose it, its calculation and sizing. In this way, it will be possible to analyze the designs whose execution has to be supervised, as well as to be able to carry out own designs in the realization of projects, within the competences of the knowledge and profession of the Building Engineer.

Knowing the materials used in the realization of the facilities acquires a vision of the behavior of the same, not only during its assembly, but during its operation; the precautions that must be taken when assembling them, the incompatibility between materials and their installation conditions. In addition, it will be possible to plan and take control of the maintenance of the installations executed in buildings, a task that is becoming increasingly relevant in this field.

In addition, the Building Engineer must know how to perform the analytical calculations of the different facilities, as well as the management of abacuses and tables for the calculations and verifications that have to be carried out in the design phases or in the evaluation of solutions on site, as well as in the solution of the deficiencies that may exist at the project level.

General and specific software will be used as tools for sizing facilities, supported by the knowledge necessary to verify the results obtained. The computers are considered complementary accessories for the engineer, they do not substitute it, they revalue it, making it more essential, but demanding a concise knowledge of the operation of the facilities.

In the course will try to reach a balance between the knowledge of design, materials, systems, elements, execution, maintenance and sizing, because they are all related to each other.


4. Degree competences achieved in this course
Course competences
Code Description
E20 Knowledge of the evaluation of the environmental impact of the building and demolition processes, of the building sustainability, and of the procedures and techniques to evaluate the energy efficiency of the buildings.
E21 Ability to apply technical regulations to the building process, and generate documents of technical specification of building procedures and construction methods.
E22 Ability to apply the specific regulations on facilities to the building process.
E24 Ability to constructively develop the building's facilities, control and plan their execution and verify the service and reception tests, as well as their maintenance.
G01 Ability for analysis and synthesis
G04 Problem resolution
G05 Decision making
G06 Critical thinking
G07 Teamwork
G12 Autonomous learning
G15 Sensitivity to environmental issues
G18 Initiative and entrepreneurial spirit
G19 Motivation for quality
G21 Command of Information and Communication Technologies (ICT)
G22 Correct oral and written communication
5. Objectives or Learning Outcomes
Course learning outcomes
Description
Apply the calculation methods in the sizing and evaluation of urban and building services.
Know the different components and basic elements that constitute the services as well as their intrinsic functioning.
Know the materials used in the realization of the different services, studying their characteristics and the properties related to the application that is being given.
Know and identify the systems that compose the fixed urban facilities and buildings.
Understand the physical phenomena that govern the services operation.
Know the execution systems of the services, as well as their control and their maintenance tasks.
Know and use the rules and regulations that govern the design, calculation, execution and control of the services.
Use measuring devices applied to the control and operation verification of the services, as well as handle tools.
Develop the ability to observe and analyze installations in the assembly phase or already executed, to increase the practical continuous training and the critical sense necessary for professional development.
Additional outcomes
Not established.
6. Units / Contents
  • Unit 1: Electrical installations.
    • Unit 1.1: Supply and electrification of a building
    • Unit 1.2: Link facilities.
    • Unit 1.3: Protection of electrical facilities.
    • Unit 1.4: Design and execution of the facilities. Materials and mechanisms.
    • Unit 1.5: Inside facilities.
    • Unit 1.6: Grounding. Lightning rod installations. Lifting facilities
    • Unit 1.7: Unit practices.
  • Unit 2: Infrastructure of telecommunication facilities in buildings.
  • Unit 3: Heating systems and air conditioning installations.
    • Unit 3.1: Heating. Design conditions. Thermal loads.
    • Unit 3.2: Heating systems by hot water.
    • Unit 3.3: Heat generation.
    • Unit 3.4: Components of heating installations.
    • Unit 3.5: Sizing of water networks.
    • Unit 3.6: Radiant heating. Electric heating.
    • Unit 3.7: Elementary psychrometric processes.
    • Unit 3.8: Comfort conditions. Thermal loads in air conditioning installations.
    • Unit 3.9: Air conditions systems.
    • Unit 3.10: Components of air conditioning systems.
    • Unit 3.11: Unit practices.
ADDITIONAL COMMENTS, REMARKS

The order in which the units are taught, as well as their extension, will depend on the real hours available during the academic course.


7. Activities, Units/Modules and Methodology
Training Activity Methodology Related Competences (only degrees before RD 822/2021) ECTS Hours As Com Description
Class Attendance (theory) [ON-SITE] Lectures E21 E22 E24 G01 G05 G15 G18 G19 G21 1.04 26 N N
Problem solving and/or case studies [ON-SITE] Problem solving and exercises E21 E22 E24 G01 G04 G05 G06 G15 G18 G19 G21 G22 1.04 26 N N
Laboratory practice or sessions [ON-SITE] Practical or hands-on activities E21 E22 E24 G01 G04 G05 G06 G12 G19 0.04 1 Y N
Computer room practice [ON-SITE] Practical or hands-on activities E21 E22 E24 G01 G04 G05 G06 G07 G12 G15 G19 G21 G22 0.08 2 Y N
Final test [ON-SITE] Assessment tests E21 E22 E24 G01 G04 G05 G06 G19 G22 0.2 5 Y Y
Study and Exam Preparation [OFF-SITE] Self-study E21 E22 E24 G01 G04 G05 G06 G07 G12 G18 G19 G21 G22 3.6 90 N N
Total: 6 150
Total credits of in-class work: 2.4 Total class time hours: 60
Total credits of out of class work: 3.6 Total hours of out of class work: 90

As: Assessable training activity
Com: Training activity of compulsory overcoming (It will be essential to overcome both continuous and non-continuous assessment).

8. Evaluation criteria and Grading System
Evaluation System Continuous assessment Non-continuous evaluation * Description
Laboratory sessions 10.00% 10.00% Each practice will be evaluated on 10 points.
You must obtain a minimum score in each practice of 3 points. In case of obtaining a lower grade, the grade obtained will not be taken into account in the final grade of the subject.
Final test 80.00% 80.00% It will be formed by two parts: Theory and Problems.
- Theory:
This part will be an exam composed by questions of type test (in this type of questions, every 3 incorrect answers will cancel a valid answer), and questions applied (of theoretical development and / or practical application).
-Problems:
This part has 2 or 3 problems.

At the beginning of the course the students will be informed if partial exams will be carried out and the conditions that will be imposed to pass the subject in case of doing them. The conditions of this modality will be published in computer support and paper, making it available to students.
Assessment of activities done in the computer labs 10.00% 10.00% Each practice will be evaluated on 10 points.
You must obtain a minimum score in each practice of 3 points. In case of obtaining a lower grade, the grade obtained will not be taken into account in the final grade of the subject.
Total: 100.00% 100.00%  
According to art. 4 of the UCLM Student Evaluation Regulations, it must be provided to students who cannot regularly attend face-to-face training activities the passing of the subject, having the right (art. 12.2) to be globally graded, in 2 annual calls per subject , an ordinary and an extraordinary one (evaluating 100% of the competences).

Evaluation criteria for the final exam:
  • Continuous assessment:
    Exam evaluation criteria
    - Part of Theory (equivalent to 30% of the exam).
    You must obtain a minimum qualification corresponding to 30% of the total qualification of this part to pass the exam
    - Part of Problems (equivalent to 70% of the exam).
    To pass the exam in each problem, you must obtain a minimum grade corresponding to 30% of the total score of the same.
    It will be necessary to obtain a score equal or superior to 4 points in the exam to be able to add the qualification obtained in practices. In case of obtaining a grade below 4 points the exam will be considered suspended.
  • Non-continuous evaluation:
    The student, who justifiably cannot attend the training activities regularly, must communicate it to the teacher of the subject at the beginning of the semester.
    Exam evaluation criteria
    - Part of Theory (equivalent to 30% of the exam).
    You must obtain a minimum qualification corresponding to 30% of the total qualification of this part to pass the exam
    - Part of Problems (equivalent to 70% of the exam).
    To pass the exam in each problem, you must obtain a minimum grade corresponding to 30% of the total score of the same.
    It will be necessary to obtain a score equal or superior to 4 points in the exam to be able to add the qualification obtained in practices. In case of obtaining a grade below 4 points the exam will be considered suspended.

Specifications for the resit/retake exam:
Exam evaluation criteria
- Part of Theory (equivalent to 30% of the exam).
You must obtain a minimum qualification corresponding to 30% of the total qualification of this part to pass the exam
- Part of Problems (equivalent to 70% of the exam).
To pass the exam in each problem, you must obtain a minimum grade corresponding to 30% of the total score of the same.
It will be necessary to obtain a score equal or superior to 4 points in the exam to be able to add the qualification obtained in practices. In case of obtaining a grade below 4 points the exam will be considered suspended.
In case of having suspended a practice, an exam of the practice / s may be carried out on the same dates and times established in the official examination session. The exam will evaluate the competences and skills contained in the practice.
Specifications for the second resit / retake exam:
Exam evaluation criteria
- Part of Theory (equivalent to 30% of the exam).
You must obtain a minimum qualification corresponding to 30% of the total qualification of this part to pass the exam
- Part of Problems (equivalent to 70% of the exam).
To pass the exam in each problem, you must obtain a minimum grade corresponding to 30% of the total score of the same.
It will be necessary to obtain a score equal or superior to 4 points in the exam to be able to add the qualification obtained in practices. In case of obtaining a grade below 4 points the exam will be considered suspended.
In case of having suspended a practice, an exam of the practice / s may be carried out on the same dates and times established in the official examination session. The exam will evaluate the competences and skills contained in the practice.
9. Assignments, course calendar and important dates
Not related to the syllabus/contents
Hours hours

Unit 1 (de 3): Electrical installations.
Activities Hours
Class Attendance (theory) [PRESENCIAL][Lectures] 11.5
Problem solving and/or case studies [PRESENCIAL][Problem solving and exercises] 11
Laboratory practice or sessions [PRESENCIAL][Practical or hands-on activities] 1
Computer room practice [PRESENCIAL][Practical or hands-on activities] 2
Final test [PRESENCIAL][Assessment tests] 2.4
Study and Exam Preparation [AUTÓNOMA][Self-study] 35.5

Unit 2 (de 3): Infrastructure of telecommunication facilities in buildings.
Activities Hours
Class Attendance (theory) [PRESENCIAL][Lectures] 1
Problem solving and/or case studies [PRESENCIAL][Problem solving and exercises] 1
Final test [PRESENCIAL][Assessment tests] .1
Study and Exam Preparation [AUTÓNOMA][Self-study] 5

Unit 3 (de 3): Heating systems and air conditioning installations.
Activities Hours
Class Attendance (theory) [PRESENCIAL][Lectures] 13.5
Problem solving and/or case studies [PRESENCIAL][Problem solving and exercises] 14
Final test [PRESENCIAL][Assessment tests] 2.5
Study and Exam Preparation [AUTÓNOMA][Self-study] 49.5

Global activity
Activities hours
General comments about the planning: Temporary planning may be modified due to unforeseen causes.
10. Bibliography and Sources
Author(s) Title Book/Journal Citv Publishing house ISBN Year Description Link Catálogo biblioteca
Reglamento Electrotécnico para Baja Tensión e Instrucciones Técnicas Complementarias (ITC) BT01 a BT51.  
Reglamento de Instalaciones Térmicas en Edificios. RITE-2007  
Código Técnico de la Edificación.  
Reglamento de Infraestructuras Comunes de Telecomunicación  
ARIZMENDI BARNES, L.J. Cálculo y normativa básica de las instalaciones en los edificios. Tomos I y II. EUNSA  
ATECYR Comentarios al Reglamento de instalaciones térmicas en los edificios (RITE-2007) MADRID IDAE 2007 Básico  
ATECYR Guia tecnica de seleccion de equipos de transporte de fluidos MADRID IDAE 2012  
ATECYR Guía técnica de ahorro y recuperación de energía en instalaciones de climatización MADRID IDAE 2012 Básico  
ATECYR Guía técnica de condiciones climáticas exteriores de proyecto MADRID IDAE 2010 Básico  
ATECYR Guía técnica de diseño de centrales de calor eficientes MADRID IDAE 2010 Básico  
ATECYR Guía técnica de instalaciones de climatización con equipos autónomos MADRID IDAE 2012 Básico  
ATECYR Guía técnica para el diseño y cálculo del aislamiento térmico de conducciones, aparatos y equipos MADRID IDAE 2007  
ATECYR Guía técnica de instalaciones de climatización por agua MADRID IDAE 2012 Básico  
AZPIAZU MONTEYS, J. Biblioteca Atrium de las instalaciones . Gas y electricidad. Barcelona Océano-Centrum, D.L. 1992  
CARMONA FERNÁNDEZ, D. Manual de Instalaciones Eléctricas. Editorial @becedario Básico  
CARRIER AIR CONDITIONING COMPANY Manual de aire acondicionado. Marcombo Básico  
Carrasco Sánchez, Emilio Instalaciones eléctricas de baja tensión en edificios de viviendas : (adaptado al REBT 2002) MADRID TEBAR 2004 Básico  
DE ANDRÉS Y RODRIGUEZ-POMATTA; AROCA LASTRA, S. Climatización II. Acondicionamiento de aire. Ediciones Fundación Escuela de la Edificación Básico  
DE ANDRÉS Y RODRIGUEZ-POMATTA; AROCA LASTRA, S. Climatización I. Calefacción. Ediciones Fundación Escuela de la Edificación Básico  
David E. Watkins Heating Services in Buildings Chichester, West Sussex, UK Wiley-Blackwell 2011  
FUMADÓ ALSINA, J.L. Climatización de edificios. Ediciones del Serbal  
GALDÓN TRILLO, F.; CALVO VILLAMARÍN, T. Curso de Instalador de calefacción, climatización y agua caliente sanitaria. Adaptado al RITE 2007 y Código Técnico de la Edificación. Madrid El Instalador Básico  
González Lezcano, R.A.; del Río Campos, J.M.; Aramburu Gaviola, F.; Cesteros García, S. Instalaciones eléctricas en el diseño de edificios Ediciones Asimétricas 2016  
Grondzik, W.T. & Kwok, A.G. Mechanical and electrical equipment for buildings. 12 Ed. New Jersey Hoboken 2015  
Hall, F.; Greeno, R. Building Services Handbook Routledge  
IDAE Guía técnica de instalaciones de biomasa térmica en edificios MADRID IDAE 2009  
LLORENS, M. Calefacción. Ediciones CEAC  
MARTÍN SÁNCHEZ, F. Manual de instalaciones de calefacción por agua caliente. Adaptado al C.T.E. y la nuevo RITE AMV Ediciones 2008  
MARTÍN SÁNCHEZ, F. Instalaciones eléctricas. Ediciones Fundación Escuela de la Edificación.  
MIRANDA, A.L. Aire acondicionado. Ediciones CEAC  
MORENO GIL, J.M. Instalador electricista autorizado: test y problemas, sobre el Reglamento Electrotécnico para Baja Tensión : curso de preparación para la obtención del certificado de cualificación individual en baja tensión en la categoría básica (IBTB) y especialista (IBTE).  
McQUINSTON; PARKER; SPITLER. Calefacción, ventilación y aire acondicionado. Ed. Limusa-Wiley.  
PAREJO, G. Electrificación de viviendas. Tebar  
PIZZETTI, C. Acondicionamiento de aire y refrigeración. Bellisco. Básico  
PORRAS, A.; VALVERDE, J., et al. Prácticas de electricidad. Instalaciones eléctricas 1 y 2. McGraw-Hill.  
Porges, F. HVAC Engineer¿s Handbook. 11 Ed. Oxon, UK. Routledge 2011  
RECKNAGEL; SPRENGER ; HÖNMANN. Manual técnico de calefacción y aire acondicionado. Bellisco  
Sugarmen, S.C. HVAC Fundamentals. 2 Ed. Lilburn 2007  
Tymkow, P.; Tassou;S.; Kolokotroni, M.; Jouhara, H. Building Services Design for Energy Efficient Building Routledge  
VALENTÍN LABARTA, J.L. Instalaciones de enlace y centros de transformación. Donostiarra  
VALENTÍN LABARTA, J.L. Instalaciones eléctricas de interior. Donostiarra. Básico  



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