Universidad Pública de Navarra - Nafarroako Univertsitate Publikoa
Public University of Navarre
| Course code: 252304 | Subject title: FLUIDS ENGINEERING | ||||
| Credits: 6 | Type of subject: Mandatory | Year: 2 | Period: 1º S | ||
| Department: Ingeniería | |||||
| Lecturers: | |||||
| VALENCIA MONREAL, JOSE JAVIER [Mentoring ] | FUERTES BONEL, JUAN PABLO (Resp) [Mentoring ] | ||||
| TORRES SALCEDO, ALEXIA [Mentoring ] | GARCIA HEVIA, BIBIANA [Mentoring ] | ||||
Module/Subject matter
Module of common industrial training. Subject matter M21. Thermodynamics and Fluid Mechanics.
Contents
Physical properties of fluids.
Kinematics of fluids.
Macroscopic forces on fluids. Fluid statics and surface tension.
Integral relationships for a control volume.
Fundamental equations of a flow: continuity, quantity of motion, kinetic momentum and energy.
Dimensional analysis and similarity.
Turbulence.
Turbulent flow.
Viscous flow in ducts.
Compressible flow.
Flow in open channels.
General proficiencies
CG1: Ability to draft 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 installations, electrical and electronic installations, installations and industrial plants, and manufacturing and automation processes.
CG2: Ability to address the activities involved in engineering projects described in the previous epigraph.
CG3: Knowledge of the scientific and technological background necessary for the learning of new methods and theories and for a proper adaptation to novel situations.
CG4: Ability to solve problems with initiative, decision-making, creativity, critical reasoning and to communicate and transmit knowledge, skills and abilities in the field of Industrial Engineering.
CG5: Knowledge of conducting measurements, calculations, valuations, studies, reports, projects and other similar work.
Specific proficiencies
CC2- Possess knowledge of the basic principles of fluid mechanics and know how to apply them to solving problems in the field of engineering. Calculation of pipes, channels and fluid systems.
Learning outcomes
R1. Plan systems and carry out projects on basic fluid energy installations.
R2. Plan and carry out tests to verify the principles and phenomena of thermodynamics and fluid mechanics.
R3. Acquire knowledge in energy and fluid matters, which enables them to learn new methods and theories, and gives them the versatility to adapt to new situations.
R4. Express and communicate ideas and systems related to energy and fluids.
R5. Understand and elaborate professional technical documentation, in the context of activities related to thermodynamics and fluids.
R6. Master the calculations of fluid installations and thermodynamic systems.
Methodology
Fluid Engineering is a theoretical-practical subject, combining lectures, guided participatory classes, group activities and work, and autonomous learning by the student.
The lectures will consist of the theoretical explanation of the fundamental aspects of each subject, as well as the resolution of doubts and questions raised by the students based on their autonomous learning of each subject. As part of the practical activities, individual and/or group, practical and laboratory exercises will be carried out.
In order to understand the subject and obtain an adequate performance in it, it will be necessary for the student to carry out continuous work around the following activities:
Attending class.
Carry out a reflective reading and in-depth study of the material provided or indicated in each subject.
Carry out the exercises and problems proposed throughout the course.
Actively participate in any discussions that arise in class.
To consult any doubts about the subject at the times arranged by the teacher for this purpose.
The Virtual Classroom will be used as a teaching complement. Through it the calendar of the different activities of the subject will be indicated, it will be possible to access the teaching material and it will be used to send the work requested in class.
| Methodology - Activity | Attendance | Self-study |
| A-1 Exposition/Participative classes | 39 | |
| A-2 Practical classes | 15 | |
| A-3 Cooperative learning activities | 10 | |
| A-4 Group projects | 5 | |
| A-5 Individual practice and study time | 69 | |
| A-6 Tutorials | 6 | |
| A-7 Exams and evaluation activities | 6 | |
| Total | 60 | 90 |
Evaluation
| Learning outcome | Assessment activity | Weight (%) | It allows test resit | Minimum required grade |
| R1, R2, R3 | Final exam | 90 % | Yes | 5/10 |
| R4, R5 | Laboratory sessions | 10 % | NO | None |
Agenda
| Week | Topic | |
| 1 | Topic 1 Topic 1 | Topic 1 Small group session (Topic 1) |
| 2 | Topic 1 Topic 2 | Topic 2 Small group session (Topic 2) |
| 3 | Topic 3 Topic 3 | Topic 3 Small group session (Topic 3) |
| 4 | Topic 3 Topic 3 | Topic 4 Small group session (Topic 3) |
| 5 | Topic 4 Topic 5 | Topic 5 Small group session (Topic 5) |
| 6 | Topic 6 Topic 6 | Topic 6 Small group session (Topic 6) |
| 7 | Topic 7 Topic 7 | Topic 8 Small group session (Topic 7) |
| 8 | Topic 8 Topic 9 | Topic 9 Small group session (Topic 8) |
| 9 | Topic 9 Topic 10 | Topic 10 Small group session (Topic 9) |
| 10 | Topic 10 Topic 10 | Topic 11 Small group session (Topic 10) |
| 11 | Topic 11 Topic 11 | Topic 11 Small group session (Practice 1) |
| 12 | Topic 11 Topic 11 | Topic 11 Small group session (Practice 2) |
| 13 | Topic 11 | Practice 3 |
| 14 | Topic 11 | Practice 3 |
| 15 | Topic 12 Topic 13 | Small group session |
Experimental practice program
P1: Venturi Calibration (1 hour)
P2: Minor losses (1 hour)
P3: Calculation of piping network systems by EPANET (3 hours)
Bibliography
Access the bibliography that your professor has requested from the Library.
BASIC BIBLIOGRAPHY
- Mecánica de Fluidos, F. M. White, McGraw-Hill, 2008.
- Mecánica de los Fluidos, V. L. Streeter, McGraw-Hill.
- Introducción a la mecánica de Fluidos, R.W. Fox y A.T. McDonald, McGraw-Hill, 1995.
- La mecánica de Fluidos, I.H. Shames, McGraw-Hill, 1995.
SUPPLEMENTARY BIBLIOGRAPHY
- Mecánica de fluidos, Amable Liñán, 2 Tomos, Publicaciones de la escuela técnico superior de aeronáuticos de Madrid.
- Mecánica de fluidos, A. Crespo, Thomso Editores, Universidad Politécnica de Madrid, 2006.
- Fundamentos y aplicaciones de la mecánica de fluidos, A. Barrero y M. Pérez-Saborid, McGraw-Hill, 2005.
Location
Exposition/Participative Classes: Teaching Hall of Public University of Navarre
Lab sessions: Fluid Mechanics Lab in Talleres Building of the Public University of Navarre.