template-browser-not-supported

Grado en Ingeniería de Tecnologías Industriales

Back Back

Máquinas Eléctricas

Código asignatura
GITECI01-3-006
Curso
Tercero
Temporalidad
Segundo Semestre
Materia
Electricidad, Electrónica y Automática (TE)
Carácter
Obligatoria
Créditos
6
Pertenece al itinerario Bilingüe
Yes
Actividades
  • Clases Expositivas (35 Hours)
  • Prácticas de Laboratorio (14 Hours)
  • Prácticas de Aula/Semina (7 Hours)
  • Tutorías Grupales (2 Hours)
Guía docente

This subject is studied in the second semester of the third year of the degree and belongs to the module of Specific Technology and the subject of Electricity, Electronics and Automation. With the knowledge acquired by the student in basic subjects of the previous courses, fundamentally Electrical Technology, Waves and Electromagnetism and Electromagnetism Extension, the study of the main components of the electrical energy systems is approached. As they are real devices used in the installations, this is a subject with a marked technological character, but it has an important theoretical load, since it is necessary to establish models to be able to understand and to optimize its operation. The aim is for the student to be able to understand the principle of operation of electrical machines, as well as to know how they are constituted and the most important aspects related to their operation in real installations.

The course has an important link with the subject Electrical Technology (second year/second semester), since the knowledge of some of its contents is fundamental in the study of electrical machines, and, to a lesser extent, with the subject Electronic Technology (third year/first semester).

For the study of this subject it is recommended that the student has studied all the subjects of the first two years of the degree, but it is especially important in the case of the three subjects mentioned above, Electrical Technology, Waves and Electromagnetism and Electromagnetism Expansion, because they are the subjects that provide the student with the knowledge of electrical and magnetic circuits that are basic to understand the operation of electrical machines. It is also advisable to have studied the subject of Electronic Technology (third course/first semester), since many of the actuators that are currently used in electrical machines are based on static electronic components.

Competencies:

  •     Ability to draft, sign and develop projects in the field of industrial engineering for the construction, reform, repair, conservation, demolition, manufacture, installation, assembly or operation of: structures, mechanical equipment, energy facilities, electrical and electronic installations, industrial facilities and plants and manufacturing and automation processes (CG1).
  •     Knowledge in basic and technological matters, which will enable them to learn new methods and theories, and provide them with the versatility to adapt to new situations (CG3).
  •     Ability to solve problems with initiative, decision making, creativity and critical reasoning (CG4).
  •     Ability to communicate and transmit knowledge, skills and abilities in the field of Industrial Engineering, both orally and in writing, and to all types of public (CG5).
  •     Knowledge to carry out measurements, calculations, valuations, appraisals, expert reports, studies, reports, work plans and other similar work (CG6).
  •     Capacity for handling specifications, regulations and standards of obligatory compliance (CG7).
  •      Ability to analyse and assess the social and environmental impact of technical solutions (CG8).
  •     Capacity to work in a multilingual and multidisciplinary environment (CG11).
  •     Capacity to work in a team (CG15).
  •     Knowledge and use of the principles of theory of electrical circuits and machines (CC4).
  •     Ability to calculate and design electrical machines (CEL1).
  •     Knowledge of the control of electrical machines and drives and their applications (CEL2).

Learning outcomes:

  •     Select, write a technical report and economically evaluate the electrical machines needed for a given industrial installation (RME1).
  •     To carry out, analyse and write a technical report on the most common tests carried out on the electrical machines studied in the course (RME2).
  •     To deduce and apply the equivalent circuit of the electrical machines studied in the subject (RME3).
  •     Calculate and analyse the parameters and characteristics of the operation of the electrical machines studied in the course (RME4).
  •     Calculate, design and write technical reports of the electrical machines studied in the course (RME5).

Power and instrument transformers. Principles of rotating electrical machines. Asynchronous machine. Synchronous machine Direct current machine. Calculation and design of electrical machines. Control of electrical
electrical machines and drives and their applications.

Methodology and Work Plan:

The classroom activity with the highest number of hours will be the theory classes, in which the contents of the subject will be presented by means of a master class (35 hours). These contents will be complemented with classroom practices (7 hours) in which exercises of application of the developed theory will be solved. Finally, in the practical laboratory classes (14 hours) the most important tests will be carried out in order to understand the functioning and operation mode of the machines under study.

The temporal load (in hours) of the different activities will be:

TRABAJO PRESENCIAL

TRABAJO NO

PRESENCIAL

Capítulos

Horas totales

Clase Expositiva

Prácticas de aula /Seminarios/ Talleres

Prácticas de laboratorio /campo /aula de  informática/ aula de idiomas

Prácticas clínicas  hospitalarias

Tutorías grupales

Prácticas  Externas

Sesiones de Evaluación

Total

Trabajo grupo

Trabajo autónomo

Total

I. INTRODUCCIÓN

5

2

0

0

0

0

2

1

2

3

II. TRANSFORMACIÓN Y CONVERSIÓN DE ENERGÍA ELÉCTRICA.

49

11

2

6

0,5

0,5

20

6

23

29

III. MOTORES ELÉCTRICOS

49

11

3

4

1

1

20

5

24

29

IV. GENERADORES ELÉCTRICOS

47

11

2

4

0,5

0,5

18

5

24

29

Total

150

35

7

14

2

2

60

17

73

90

MODALIDADES

Horas

%

Totales

Presencial

Clases Expositivas

35

23,3

Práctica de aula / Seminarios / Talleres

7

4,7

Prácticas de laboratorio / campo / aula de informática / aula de idiomas

14

9,4

Prácticas clínicas hospitalarias

Tutorías grupales

2

1,3

Prácticas Externas

Sesiones de evaluación

2

1,3

No presencial

Trabajo en Grupo

17

11,3

Trabajo Individual

73

48,7

Total

150

Evaluation of Student Learning:

Ordinary call:

In the ordinary call, the theoretical part (85%) and the practical part (15%) will be evaluated.

In the evaluation of the learning outcomes of this subject, there are two exclusive options to pass:

1. Take two partial exams, which may be written or oral, covering the content taught during the course. It is important to note that students who choose this option will not be able to take the final exam.
2. Take a final exam, which may be written or oral, consisting of two distinct parts, corresponding to each of the two thematic blocks in which the subject is divided. Only those students who have not taken the second partial exam may take this exam, on the official date of the ordinary exam in May. The grade obtained in the first partial exam, if taken, will not be considered in this final exam.

To pass the final exam, it is essential to obtain a minimum of 30% of the maximum grade in each of the parts. In case this minimum score is not reached in any of the parts, the final grade will be calculated as follows: the average of the grades obtained in both parts will be taken, but if this average is higher than 4 points, the final grade will be 4 out of 10.

The maximum grade in the final grade is 8.5 points out of 10, reserving the remaining 1.5 points for the evaluation of laboratory practices.

For the practical part:

  • At the end of the practical part, for the evaluation of the contents corresponding to Laboratory, a test will be carried out consisting of the physical execution of one of the laboratory practices seen throughout the course.
  • The maximum grade of the practical part in the final grade is 1.5 points.

Attendance at theoretical classes and laboratory sessions is not compulsory.

To pass the course it is necessary to obtain a minimum score of 5 points out of 10.

Extraordinary calls:

  • There will be an exam, which may be written or oral, on the official date of these convocations with a maximum value of 10 points.
  • In order to pass the course it is necessary to obtain a minimum score of 5 points out of 10. Minimum score in two parts is mandatory as in the ordinary call.

Differentiated evaluation:

  • There will be an exam of the same type as that of the extraordinary convocations, whose maximum value will be 10 points.

In order to pass the course, it is necessary to obtain a minimum score of 5 out of 10.

.

Resources, Bibliography and Complementary Information

Resources:

  •     Theory rooms with computer for the teacher and projection cannon.
  •     Laboratory of electrical machines for laboratory practices.
  •     Proposed problems of the subject.

Basic bibliography:

  • Electrical MAchinery. Fitzgerald, Kingsley, Umans. Ed. McGraw-Hill.