Teaching Guides Query



Academic Year: 2017/18

435 - Bachelor's Degree in Chemical Engineering

29942 - Fluid Facilities Design


Teaching Plan Information

Academic Year:
2017/18
Subject:
29942 - Fluid Facilities Design
Faculty / School:
110 - Escuela de Ingeniería y Arquitectura
Degree:
435 - Bachelor's Degree in Chemical Engineering
ECTS:
6.0
Year:
4
Semester:
Second semester
Subject Type:
Optional
Module:
---

5.1. Methodological overview

The teaching and learning activities of this course are organised in several levels: lectures, case studies and assignments. The student gets progressively more involved as the course progresses.

 

During the lectures, the theoretical foundations of the course are presented and some sample problems are solved in detail.

 

The case-study classes are the perfect supplement for the lectures because they allow the students to fully understand the subject. At the same time, the case studies develop an engineering way of thinking. These classes are organised in smaller groups where the student solves the suggested cases.

 

The assignments are small scale projects, more complex than the case studies. They are solved in groups outside the class.

5.2. Learning tasks

  • Lectures (30 h): the theory will be explained here.
  • Tutorials (20 h): in these sessions, the students will solve some case studies under the supervision of the lecturer. The cases will be closely related to the theory reviewed in the lectures.
  • Lab exercises (10 h): the student will see either lab or computer demonstrations of the topics studied in the lectures.
  • Assignments (30 h outside the class): There will be several small projects to be addressed by the students in groups.
  • Individual study time (57 h outside the class): it is advisable the student carries out this study along the term.
  • Exam (3 h).

5.3. Syllabus

  1. Multiphase flow. Transport and separation of particles.
  2. Flow, temperature, pressure and level instrumentation.
  3. Piping engineering. Materials. Fittings. MTO. Codes.
  4. 2D and 3D drawing.
  5. Piping design.
  6. Pipe stress and flexibility analysis.
  7. Inspections. Tests. Installation and Commissioning.

5.4. Course planning and calendar

The timetable for lectures and tutorials will be prepared by the School.

 

The following table shows the tentative distribution of workload among the different teaching and learning activities.

 

Module

Classroom

Supervised

exercises

Clinical

tutorials

Personal

work

 

Lectures

Cases

 

 

 

Multiphase flow. Transport and separation of particles.

5

2

 

 

10

Flow, temperature, pressure and level instrumentation.

5

2

 

 

10

Piping engineering. Materials. Fittings. MTO. Codes.2D and 3D drawing.

7

5

8

2

10

Piping design.

6

5

6

2

10

Pipe stress and flexibility analysis.

6

4

10

2

15

Inspections. Tests. Installation and Commissioning.

1

2

 

 

5

TOTAL

30

20

24

6

60 

5.5. Bibliography and recommended resources

BB Bausbacher, Ed. Process plant layout and piping design / Ed Bausbacher, Roger Hunt Upper Sadle River, New Jersey : Prentice Hall, cop. 199
BB Benedict, Robert P.. Fundamentals of pipe flow / Robert P. Benedict New York [etc.] : John Wiley & Sons, cop. 1980
BB Creus Solé, Antonio. Instrumentación industrial / Antonio Creus Solé . 8ª ed. Barcelona : Marcombo, 2011
BB Fitzgerald, Bill. Control valves for the chemical process industries / Bill Fitzgerald New York [etc.] ; McGraw-Hill, cop. 1995
BB Flujo de fluidos en válvulas, accesorios y tuberías / preparado por la división de Ingeniería de CRANE ; traducción, VALFISA ; revisión técnica, Clemente Reza García México [etc.] : McGraw-Hill, imp. 1987
BB García Gutierrez, Luis. Válvulas de control / Luis García Gutierrez Madrid : AENOR, D.L. 1999
BB Martín Hernández, Bernardo. Manual de tuberías / Bernardo Martín Fernández Bilbao : El Autor, D.L.1994
BB Mateos de Vicente, Manuel. Válvulas de retención y otras válvulas afines / por Manuel Mateos de Vicente . - 2ª ed. amp. y en color Madrid : Bellisco, 2008
BB Mendiluce Rosich, Enrique. El golpe de ariete en impulsiones / Enrique Mendiluce Rosich . - 2ª ed. revisada y actualizada Madrid : Librería Editorial Bellisco, 1987
BB Ollero de Castro, Pedro. Control e instrumentación de procesos químicos / Pedro Ollero de Castro, Eduardo Fernández Camacho Madrid : Síntesis, D. L. 1997
BB Parmakian, John. Waterhammer analysis / John Waterhammer New York [etc.]: Dover Publications, 1963
BB Piping design handbook / edited by John J. McKetta New York : Marcel Dekker, cop. 1992
BB Rase, Howard F.. Diseño de tuberías para plantas de proceso / Howard F. Rase ; versión española Juan Pérez Peces . - [1a. ed. española, 1a. reimp.] Madrid : Blume, 1979
BB Sandler, Henry J.. Practical process engineering : a working approach to plant design / Henry J. Sandler, Edward T. Luckiewicz New York [etc.] : McGraw-Hill, cop. 1987
BB Soares, Claire. Process engineering equipment handbook / Claire Soares New York [etc.] : McGraw-Hill, cop. 2002
BB The Chemical engineering guide to valves / edited by Richard W. Greene and the Staff of Chemical Engineering New York : McGraw-Hill : Chemical Engineering, 1984
BB Wylie, E. Benjamin. Fluid transients in systems / by E. Benjamin Wylie and Victor L. Streeter ; with Lisheng Suo Englewood Cliffs, NJ : Prentice Hall, cop.1993