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Syllabus 2021-22 - 14612016 - Fluid Mechanics (Mecánica de fluidos)

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  • Level 1: Tutorial support sessions, materials and exams in this language
  • Level 2: Tutorial support sessions, materials, exams and seminars in this language
  • Level 3: Tutorial support sessions, materials, exams, seminars and regular lectures in this language
DEGREE: Grado en Ingeniería mecánica (14612016)
FACULTY: SCHOOL OF ENGINEERING OF LINARES
DEGREE: Doble grado en Ingeniería eléctrica e Ingeniería mecánica (14812024)
FACULTY: SCHOOL OF ENGINEERING OF LINARES
DEGREE: Doble grado en Ingeniería de recursos energéticos e Ing. química industrial (15112023)
FACULTY: SCHOOL OF ENGINEERING OF LINARES
DEGREE: Grado en Ingeniería eléctrica (14712018)
FACULTY: SCHOOL OF ENGINEERING OF LINARES
DEGREE: Doble grado en Ingeniería eléctrica e Ingeniería química industrial (14912023)
FACULTY: SCHOOL OF ENGINEERING OF LINARES
DEGREE: Grado en Ingeniería química industrial (14412017)
FACULTY: SCHOOL OF ENGINEERING OF LINARES
ACADEMIC YEAR: 2021-22
COURSE: Fluid Mechanics
SYLLABUS
1. COURSE BASIC INFORMATION
NAME: Fluid Mechanics
CODE: 14612016 (*) ACADEMIC YEAR: 2021-22
LANGUAGE: English LEVEL: 1
ECTS CREDITS: 6.0 YEAR: 2 SEMESTER: SC
2. LECTURER BASIC INFORMATION
NAME: ORTEGA GARRIDO, MARÍA VICTORIA
DEPARTMENT: U121 - INGENIERÍA MECÁNICA Y MINERA
FIELD OF STUDY: 600 - MECÁNICA DE FLUIDOS
OFFICE NO.: - E-MAIL: - P: -
WEBSITE: -
ORCID: -
LANGUAGE: - LEVEL: 1
3. CONTENT DESCRIPTION

  • Introduction to the Study of Fluid Mechanics. Introduction to the course. Solid vs fluid (gas and liquid). What Is A Fluid? Fluid properties. objectives and essential simplifications.-Basic Concepts. Strategy in the study of fluids.
  • Fluidostatics. Fundamental equation of hydrostatics. Implications. Forces on surfaces. Archimedes principle. Examples.
  • Fluid kinematics. Fluid Field. Stationary and uniform flow. Path line, stream line, streak line.
  • Conservation Laws. Introduction. Conservation Laws. Reynolds Transport Theorem. Continuity, momentum, energy equations. Applications.
  • Dimensional analysis and physical similarity. Basis of Dimensional Analysis. Buckingham Theorem. Dimensionless parameters. Physical Interpretation. Similarity.
  • Flow in ducts. Introduction. Losses in Pipes: empirical equations, Darcy-Weissbach,  Friction factor. Dependence of friction factor with roughness and Reynolds number. Equations for the calculation of the friction factor. laminar and turbulent solution. Colebrook equation - artificial and natural roughness. Methods of Calculation of friction factor in turbulent regime: iterations, approximate formulas and diagrams. The Moody diagram. Local losses computation. Interference.
  • Introduction to flow in open channels. Introduction and basic concepts. Dimensional Analysis of the problem. Flow classification.  Uniform flow: Analysis and optimums section. Non-uniform flow: Specific Energy, Critical Depth. Hydraulic jump.Open channels flow meters.

    - Lab sessions: during the semester there will be different lab sessions regarding: fluidstatics, conservation laws, ideal flow, intro to CFD or flow in ducts. A minimum calification must be obtained in the completion of the practice reports to pass the subject.

4. COURSE DESCRIPTION AND TEACHING METHODOLOGY

The teaching methodology will consist of three different types of activities:

 

- Lectures delivered at the classroom. In these classes the concepts previously commented will be introduced and explained by the lecturer. In addition, exercises related to the matter studied will be also solved. The methodology used will be that indicated previously.

- Lab sessions: five lab sessions of two hours each will be held, all of them at the fluid mechanics experimental lab. These will consist of a theoretical introduction, followed by the measurements acquisition by the students. The students will subsequently analyze the results and compare them with the theoretical concepts studied to write an individual final report of each session. The methodology used will be that indicated previously.

- The collective mentoring sessions will consist of seminars related to the subject. The methodology used will be that stated above.

Students with special educational needs should contact the Student Attention Service (Servicio de Atención y Ayudas al Estudiante) in order to receive the appropriate academic support

5. ASSESSMENT METHODOLOGY

A minimum mark is needed to pass the exam.

The attendance to the practical sessions is mandatory. If a student has not attended all the laboratory practice sessions, he / she will not allowed to attend the exam and, therefore, will not be graded. A minimum calification must be obtained in the completion of the practice reports to pass the subject.

By means of the above assessements, the competences CC2 and CT4 will be evaluated, as well as the corresponding results.

6. BOOKLIST
MAIN BOOKLIST:
  • Fluid Mechanics [Recurso electrónico]. Edition: 2.. Author: Spurk, H.Joseph. Publisher: Berlin, Heidelberg : Springer-Verlag, 2008.  (Library)
  • Mecánica de fluidos. Edition: 6ª ed. Author: White, Frank M.. Publisher: Madrid [etc.]: McGraw-Hill, D.L. 2008  (Library)
7. VIRTUAL / CLASSROOM TEACHING SCENARIO

1) TEACHING METODOLOGY AND FORMATIVE ACTIVITIES

In general, in the multimodal or mixed scenario, the format will be "face-to-face 100" or "face-to-face 50% rotating". Theory classes will be held in person at 100% in those degrees and courses with a reduced number of students that allows it according to the capacity of the available classrooms. In those that do not, the classes will be face-to-face for 50% of the students, establishing two subgroups, which will rotate the attendance in alternate weeks. Classes will be broadcast by videoconference to the subgroup of students who do not attend class that week, for which purpose videoconference cameras will be installed in the classrooms.

The teaching methodology will consist of three types of activities:

Expository classes, taught electronically synchronously. In these classes the teacher will present and explain the concepts corresponding to the content section. Also, exercises related to the studied subject will be solved. The methodologies used will be: Master classes, Theory exposition and general examples, Introductory activities and Conferences.

Laboratory sessions: five laboratory sessions of two hours each will be held.
They will be taught face-to-face in the laboratory (also electronically synchronously in the case of "face-to-face 50% rotating" format). These sessions will consist of a brief theoretical introduction, followed by the acquisition of measurements by the students in the laboratory or, where appropriate, the provision of the necessary values to carry out the corresponding calculations. The students will later analyze the results, comparing them with the theoretical concepts studied and, finally, they will be able to make an individual report of each session. The methodologies used will be: Practical activities, Laboratories, Computer rooms, Exercise resolution, Presentations / exhibitions, Seminars or Video tutorials.

The collective tutoring sessions will consist, fundamentally, of seminars related to concepts specific to the subject. The methodologies used in these and in the individual tutorials
They will be: Supervision of directed works, Seminars, Debates, Clarification of doubts, Comments of works
Individual, Presentations / exhibitions.

 In summary, the following activities and methodologies are considered for the mixed format:

Formative Activities

Format (presential/online)*

Teaching Metodology

Description

A-1 Large group  theory classes

50% rotating attendance (*)

Classes in the timetable and  classroom assigned to a part of the group and retransmssion to the rest, with rotation, as determined by the Centre

A2- Small group classes

Presential 100% (**)

Class at the assigned time and laboratory.

Tutorials

50% rotating attendance (*)

Class in the schedule and classroom assigned to part of the group and electronically to the rest, with periodic rotation of students, as determined by the Center.

 (*) The Center may establish a different attendance percentage depending on the number of students and capacity of the classroom / laboratory according to sanitary measures.
(**) The Center may establish rotating attendance depending on the number of students and capacity of the classroom / laboratory according to the sanitary measures (class in the schedule and classroom / laboratory assigned to one part of the group and telematic transmission to the rest, with periodic rotation of students, as determined by the Center).

2) EVALUATION SYSTEM

The evaluation system of the subject will be the same contemplated in the 100% face-to-face case, in order to give certainty to the students enrolled in the subject and according to what is established in the memory of the corresponding grade.

This decision is reinforced by the fact that the training methodologies and activities will not undergo any change with respect to the 100% face-to-face case.

At the time of obtaining the final grade, it will be necessary to have obtained a minimum grade in the final exam to proceed with the average.

The realization of the practices is obligatory. If a student has not attended all the laboratory practical sessions, they will not be able to take the exam and therefore will not be graded.

Through the different evaluation instruments, the competences will be evaluated, and especially the CC2 and CT4, as well as the corresponding results.

In summary, the evaluation system will be:

 

ASPECT

CRITERIA

INSTRUMENT 

WEIGHT

Attendance and / or participation in face-to-face and / or virtual activities

Correct student intervention in class and tutoring.

Observation and notes of the teacher and the rest of the students.

5.0%

Theoretical concepts of matter

Mastery of theoretical and practical content.

written test

75.0%

Carrying out work, cases or exercises

Correct resolution of the proposed works. Clarity of presentation and exposition of the same.

Delivery of works

10.0%

Laboratory / field practice / use of ICT tools

Correcto manejo de instrumentación y procesamiento y análisis de datos.

Correct handling of instrumentation and data processing and analysis.

10.0%

The qualification system will be governed by the provisions of RD 1125/2003 of September 5, which establishes the European credit system and the qualification system for official university degrees.

3)RESOURCES

Although the training activities or the methodology have not undergone any modification (with the exception of the retransmission of the classes if necessary), if the theory teaching were in a "face-to-face 50% rotating" format, it would be carried out in part of virtual form (in its synchronous modality), with no 50% face-to-face variation. In this sense, the methodology would remain the same, that is, classes using presentations and whiteboards, seminars, etc., but they would in turn be relayed through virtual sessions in google-meet or similar to 50% of students who were in virtual format at that time.

The practical classes will continue to take place in a 100% classroom setting in the laboratory. If this is not possible, these will be in "rotating face-to-face" format.

8. VIRTUAL TEACHING SCENARIO

1) TEACHING METHOLOGY AND TRAINING ACTIVITIES

The teaching methodology will consist of three types of activities:

Expository classes: taught electronically synchronously. In these classes the teacher will present and explain the concepts corresponding to the content section. Also, exercises related to the studied subject will be solved. The methodologies used will be: Master classes, Theory exposition and general examples, Introductory activities and Conferences.


Laboratory sessions: a total number of five laboratory sessions of two hours each will be conducted synchronously via telematics. These sessions will consist of a brief theoretical introduction, followed by the acquisition of measurements by the students in the laboratory, or where appropriate, the provision of the necessary values; to carry out the corresponding calculations. The students will later analyze the results, comparing them with the theoretical concepts studied and, finally, they will be able to make an individual report of each session. The methodologies used will be: Practical activities, Laboratories, Computer rooms, Exercise resolution, Presentations / exhibitions, Seminars or ideotutorials. Alternatively, the small group sessions may contemplate the resolution of practical cases related to the subject of the practices.


Collective tutoring sessions: they will be taught electronically synchronously or asynchronously, depending on the activity carried out. They will consist, fundamentally, of problem solving, clarification of doubts, debates, seminars, tutoring of papers, presentation of papers or conferences related to concepts specific to the subject. The methodologies used in these and in the individual tutorials will be: Supervision of directed works, Seminars, Debates, Clarification of doubts, Comments on individual works, Presentations / exhibitions.

In summary, the training activities do not undergo any change with respect to the 100% face-to-face case, except that they go into virtual mode.

 

 In summary, the following activities and methodologies are considered for the mixed format:

Formative Activities

Format (presential/online)*

Teaching Metodology

Description

A-1 Large group  theory classes

Online

Taught electronically synchronously.

A2- Small group classes

Online

Taught electronically synchronously.

Tutorials

Online

Taught electronically synchronously.

 (*) The Center may establish a different attendance percentage depending on the number of students and capacity of the classroom / laboratory according to sanitary measures. 
(**) The Center may establish rotating attendance depending on the number of students and capacity of the classroom / laboratory according to the sanitary measures (class in the schedule and classroom / laboratory assigned to one part of the group and telematic transmission to the rest, with periodic rotation of students, as determined by the Center).

2) EVALUATION SYSTEM

The evaluation system of the subject will be the same as that contemplated in the 100% face-to-face case, in order
to give certainty to the students enrolled in the subject and according to what is established in the memory of the corresponding grade. This decision is reinforced by the fact that the training methodologies and activities will not undergo any change with respect to the 100% face-to-face case.

In this case, the examination will be carried out virtually, if the competent / health authorities so establish.

At the time of obtaining the final grade, it will be necessary to have obtained a minimum grade in the final exam to proceed with the average.

The realization of the practices is obligatory. If a student has not attended all the laboratory practical sessions, they will not be able to take the exam and therefore will not be graded.

Through the different evaluation instruments, the competences will be evaluated, and especially the CC2 and CT4, as well as the corresponding results.


In summary, both for the ordinary and extraordinary call, the evaluation system will be:

 

ASPECT

CRITERIA

INSTRUMENT 

WEIGHT

Theoretical concepts of matter

Mastery of theoretical and practical content.

written test

75.0%

Carrying out work, cases or exercises

Correct resolution of the proposed works. Clarity of presentation and exposition of the same.

Delivery of works

10.0%

Laboratory / field practice / use of ICT tools

Correct handling of instrumentation and data processing and analysis.

Evaluation of the practices

10.0%

The qualification system will be governed by the provisions of RD 1125/2003 of September 5, which establishes the European credit system and the qualification system for official university degrees.

3) RESOURCES

Although the training activities or the methodology have not undergone any modification, the teaching is carried out virtually (in its synchronous mode) in its entirety. In this sense, the methodology will remain the same as in the 100% face-to-face case, that is, classes using presentations, whiteboard, seminars, etc., but they will be taught through virtual sessions on Google Meet or similar. the training activities or the methodology have not undergone any modification, the teaching is carried out virtually (in its synchronous mode) in its entirety. In this sense, the methodology will remain the same as in the 100% face-to-face case, that is, classes using presentations, whiteboard, seminars, etc., but they will be taught through virtual sessions on Google Meet or similar.

 

DATA PROTECTION CLAUSE (on line exams)

Institution in charge of data processing: Universidad de Jaén, Campus Las Lagunillas, s/n, 23071 Jaén

Data Protection Delegate: dpo@ujaen.es

Purpose: In accordance with the Universities Law and other national and regional regulations in force, carrying out exams and assessment tests corresponding to the courses students are registered in. In order to avoid frauds while sitting the exam, the exam will be answered using a videoconference system, being able the academic staff of the University of Jaén to compare and contrast the image of the person who is answering the exam with the student's photographic files. Likewise, in order to provide the exam with evidential content for revisions or claims, in accordance with current regulation frameworks, the exam will be recorded and stored.

Legitimacy: compliance with legal obligations (Universities Law) and other national and regional regulations currently in force.

Addressees: service providers who are the owners of the platforms where the exams are carried out and with whom the University of Jaén has signed the corresponding data access contracts.

Storage periods: those established in current in force regulations. In the specific case of exam videoconference recordings, not before the examination records and transcripts are closed or the exam can still be reviewed or challenged.

Rights: you can exercise your right of access, amendment, cancellation, opposition, suppression, limitation and portability by sending a letter to the postal or electronic address indicated above. In the event that you consider that your rights have been violated, you may submit a complaint to the Andalusian Council for Transparency and Data Protection www.ctpdandalucia.es

CLASS RECORDING CLAUSE PERSONAL DATA PROTECTION

Person in charge: Universidad de Jaén, Paraje Las Lagunillas, s/n; Tel.953 212121; www.ujaen.es

Data protection delegate (DPO): TELEFÓNICA, S.A.U. ; Email: dpo@ujaen.es

Procedure aim: To manage proper recordings of teaching sessions with the aim of facilitating learning process under a multimodal and/or online teaching

Period for record storage: Images will be kept during legal term according to regulations in force

Legitimacy: Data will be managed according to legal regulations (Organic Law 6/2001, December 21, on Universities) and given consent provided by selecting corresponding box in legal admission documents

Data recipients (transfers or assignments): Any person allowed to get access to every teaching modality

Rights: You may exercise your rights of access, rectification, cancellation, portability, limitation of processing, deletion or, where appropriate, opposition. To exercise these rights, you must submit a written request to the Information, Registration and Electronic Administration Service of the University of Jaen at the address above, or by e-mail to the address above. You must specify which of these rights you are requesting to be satisfied and, at the same time, you must attach a photocopy of your ID card or equivalent identification document. In case you act through a representative, legal or voluntary, you must also provide a document that proves this representation and identification. Likewise, if you consider that your right to personal data protection has been violated, you may file a complaint with the Andalusian Data Protection and Transparency Council www.ctpdandalucia.es