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Educational guide | |||||||||||||||||||||||||||||||||||||||
IDENTIFYING DATA | 2024_25 | |||||||||||||||||||||||||||||||||||||||
Subject | THERMAL AND HYDRAULIC ENGINEERING | Code | 00714005 | |||||||||||||||||||||||||||||||||||||
Study programme |
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Descriptors | Credit. | Type | Year | Period | ||||||||||||||||||||||||||||||||||||
4.5 | Compulsory | First | First |
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Language |
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Prerequisites | ||||||||||||||||||||||||||||||||||||||||
Department | ING.MECANICA,INFORMAT.AEROESP. |
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Coordinador |
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gburs@unileon.es - |
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Lecturers |
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Web | http://https://www.unileon.es/estudiantes/oferta-academica/masteres/mu-ingenieria-industrial/plan-estudios?id=0714005&cursoa=2020 | |||||||||||||||||||||||||||||||||||||||
General description | ||||||||||||||||||||||||||||||||||||||||
Tribunales de Revisión |
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Competencies |
Type A | Code | Competences Specific |
A13794 | ||
A13796 | ||
A13797 | ||
Type B | Code | Competences Transversal |
B3583 | ||
B3584 | ||
B3585 | ||
B3586 | ||
B3587 | ||
B3610 | ||
B3625 | ||
Type C | Code | Competences Nuclear |
Learning aims |
Competences | |||
Possess and understand knowledge that provides a basis or opportunity for originality in the development and/or application of ideas, often in a research context. Students are able to apply their acquired knowledge and problem-solving skills in new or unfamiliar environments within broader (or multidisciplinary) contexts related to their area of study. Students must be able to integrate knowledge and face the complexity of formulating judgements based on incomplete or limited information, including reflections on the social and ethical responsibilities linked to the application of their knowledge and judgements. Students must be able to communicate their conclusions and the ultimate knowledge and reasons that support them to specialised and non-specialised audiences in a clear and unambiguous manner. Students should possess the learning skills to enable them to continue studying in a largely self-directed or autonomous manner. Have adequate knowledge of the scientific and technological aspects of: mathematical, analytical and numerical methods in engineering, electrical engineering, energy engineering, chemical engineering, mechanical engineering, mechanics of continuous media, industrial electronics, automation, manufacturing, materials, quantitative management methods, industrial informatics, town planning, infrastructures, etc. | B3583 B3584 B3585 B3586 B3587 |
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Teamwork: Ability to commit to a team, habit of collaboration and work resolving conflicts that may arise. Decision-making and problem-solving: locating the problem, identifying causes and alternative solutions, selecting and evaluating the most suitable one. Critical thinking: ability to analyse, synthesise and draw conclusions from an article (whether opinion or scientific). | A13794 A13796 A13797 |
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Knowledge and skills for the design and analysis of thermal machines and engines, hydraulic machines and industrial heating and cooling installations. | B3610 |
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Knowledge and skills to plan and design electrical and fluid installations, lighting, air conditioning and ventilation, energy saving and efficiency, acoustics, communications, home automation and intelligent buildings and security installations. | B3625 |
Contents |
Topic | Sub-topic |
THERMAL ENGINEERING | Chapter 1.- Thermal engines and machines. Generalities Chapter 2.- Combustion Systems Chapter 3.- Volumetric engines and engines. Chapter 4.- Power plants based on turbomachines Chapter 5.- Industrial refrigeration. |
HYDRAULIC ENGINEERING | Chapter 1.- Basic concepts of hydraulics. Chapter 2.- Basic equations of a flow. Chapter 3.- Pressure losses in pressure pipes. Localised pressure losses. Chapter 4.- Forced pressure pipes. Pipe association. Chapter 5.- Hydraulic machines. Rotodynamic pumps. Hydraulic equipment. |
Planning |
Methodologies :: Tests | |||||||||
Class hours | Hours outside the classroom | Total hours | |||||||
Seminars | 5 | 5.5 | 10.5 | ||||||
Tutorship of group | 3.5 | 0 | 3.5 | ||||||
PBL (Problem Based Learning) | 9 | 13.5 | 22.5 | ||||||
Laboratory practicals | 5 | 5 | 10 | ||||||
Lecture | 30 | 33 | 63 | ||||||
Mixed tests | 3 | 0 | 3 | ||||||
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students. |
Methodologies |
Description | |
Seminars | At least one seminar will be held during the course |
Tutorship of group | There will be a group tutorial in the classroom. |
PBL (Problem Based Learning) | Practical problems of real cases will be carried out |
Laboratory practicals | The laboratory will be attended to consolidate the theoretical concepts. |
Lecture | Theoretical subjects will be presented in lectures during the established timetable. |
Personalized attention |
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Assessment |
Description | Qualification | ||
Mixed tests | THERMAL ENGINEERING BLOCK Carrying out laboratory practicals HYDRAULIC ENGINEERING BLOCK Delivery of exercises proposed by the teacher. |
10% 10% |
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Others | THERMAL ENGINEERING BLOCK Objective tests. Exam HYDRAULIC ENGINEERING BLOCK Objective tests. Examination |
90% 90% |
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Other comments and second call | |||
Sources of information |
Access to Recommended Bibliography in the Catalog ULE |
Basic | |
Thermal Engineering -WARK, K. Termodinámica. Ed. Reverté (Barcelona), 1988. ISBN: 968-422-780-9. -WARK, K. y RICHARDS, D. Termodinámica. Ed. McGraw Hill Internacional (Madrid), 2001. ISBN: 84-481-2829-X. -MATAIX, C. Termodinámica Técnica y Máquinas Térmicas. Ed. ICAI (Madrid), 1978. ISBN: 84-7399-050-1. -MATAIX, C. Turbomáquinas Térmicas. Ed. Dossat, S. A. (Madrid), 1988. ISBN: 84-237-0727-X -J. Warnatz, U. Maas, R.W. Dibble., Combustion: Physical and chemical fundamentals, modelling and simulation, experiments, pollutant formation, Springer, 2006 -Amable Liñán, Forman Arthur Williams, Fundamental aspects of combustión, Oxford University Press, 1993 -Sara McAllister, Jyh-Yuan Chen, A. Carlos Fernandez-Pello, Fundamentals of Combustion Processes, Springer, 2011 -HOLMAN, J.Transferencia de calor. Ed. McGraw Hill (Madrid), 1998. ISBN: 007-844785-2. -INCROPERA, F.P. y DE WITT, D.P.: Fundamentos de Transferencia de Calor. 4ª Edición. Ed. Prentice-Hall Hispanoamericana (México), 1999. ISBN: 970-17-0170-4. -MILLS, A. Transferencia de calor. Ed. Irwin (California), 1995. ISBN: 84-8086-194-0. Curso de Ingenieria Del Vapor, SPIRAX -SARCO -ARJAROV, A. MARFÉNINA, I. y MIKULIN, E. Sistemas Criogénicos. Ed. Mir (Moscú), 1988. ISBN: 5-03-001682-1. -Producción de frío. La Enrique Torrella Alcaraz ISBN 10: 8477213674 / ISBN 13: 9788477213673 -Frío Industrial: Fundamentos, Diseño Y Aplicaciones; P. C. Koelet; ISBN-10: 8487440975 -PINAZO OJER, JOSÉ MARÍA, Cálculos en instalaciones frigoríficas, Servicio de Publicaciones Universidad Politécnica de Valencia, 1995 Hydraulic Engineering |
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Complementary | |
Recommendations |
Other comments | |
It is recommended that the student has a solid knowledge of fluid mechanics and refrigeration engineering. |