| Code |
15770
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| Year |
3
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| Semester |
S1
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| ECTS Credits |
6
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| Workload |
PL(15H)/T(30H)/TP(15H)
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| Scientific area |
Mechanics and Thermodynamics
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Entry requirements |
Basic knowledge of applied thermodynamics, taught in the Applied Thermodynamics I course
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Mode of delivery |
Classes
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|
Work placements |
No
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Learning outcomes |
This course aims to provide students with fundamental knowledge about the main thermodynamic cycles used in engineering. Steam power cycles and gas turbine cycles will be covered, with an emphasis on their efficiency and practical applications. Students will also study simple refrigeration cycles,
which are essential for refrigeration systems. The unit also includes the study of perfect gas mixtures and the basic principles of psychrometry, with application in air conditioning systems. The concepts of combustion and its energy and environmental implications will be introduced. The aim is to develop the ability to critically and quantitatively analyze different thermal systems. By the end, students should be able to interpret and evaluate the performance of real thermodynamic cycles. The approach combines theory, practical examples, and applied exercises.
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Syllabus |
1. Steam power cycles.
2. Gas turbine cycles.
3. Simple refrigeration cycles.
4. Mixture of ideal gases.
5. Basics of psychrometry and air conditioning.
6. Combustion.
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Main Bibliography |
- Fundamentos de Termodinâmica Aplicada, P. Pimentel de Oliveira, 2.ª Edição, Lidel.
- Thermodynamics: An Engineering Approach, Yunus Cengel, Michael Boles and Mehmet Kanoglu, Tenth Edition, McGraw Hill.
- Fundamentals of Engineering Thermodynamics, Michael J. Moran, Howard N. Shapiro, Daisie D. Boettner, Margaret B. Bailey, 9th Edition, John Wiley & Sons, Inc
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Teaching Methodologies and Assessment Criteria |
Teaching methodologies are based on mixed theoretical/practical and practical approaches. There are 2 classes per week with 2 hours each. In one the theoretical concepts are given, followed immediately by practical illustrations. In the practical class, numerical exercises involving application of the theory to concrete thermodynamics engineering problems are solved. In addition, there are two laboratory classes.
The evaluation is based on a written test (75%), a lab work (17,5%) and active participation in the practical classes (7,5%) and/or an exam (82,5%) and lab (17,5%). Marks above 16 require a final oral examination. Min mark in written test/exam 8,5 (/20). Test: 10 Jan 2024 11h-13h
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Language |
Portuguese. Tutorial support is available in English.
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