• General - Universidad Politécnica de Madrid

• General - Universidad Politécnica de Madrid

• General
Course code
Course title
City
Date
PROMARC SUMMER SCHOOL
CFD Hydrodynamics
Universidad Politécnica de Madrid –
UPM. (Technical University of
Madrid)
Madrid
Week 28th June- 3rd July
Language
English
Institution
Professor responsible
Participating professors
Antonio Souto-Iglesias
Luis Pérez Rojas
ƒ Antonio Souto-Iglesias1
ƒ Luis Pérez-Rojas1
ƒ
Leo González-Gutiérrez1
ƒ
Patricia Izaguirre-Alza1
1
Naval Architecture Department (ETSIN),
Technical University of Madrid (UPM)
Aimed at
Minimum: 10, Maximum: 22,
Reserved for local students:5
Students of Engineering, Physics,
Mathematics, etc. Some financial
support is expected in order to help
the attendance
Requirements
2nd year of study (at least)
Key words
CFD, grid generation, RANS, finite
elements, panel methods, ship
hydrodynamics, ship waves
Number of places
• Course address
Venue:
ETSI Navales. Avenida Arco de la Victoria s/n.28040 Madrid
Room:
Auxiliary room to the computers Main Room (“Sala
Restringida”)
Location
How to get: Two possibilities (see map).
1: Metro Ciudad Universitaria (line 6), turn left at the exit
corresponding to Avenida Complutense and walking for 6
minutes.
2: Metro Moncloa (lines 3,6) and follow the walking path
parallel to the highway (falling on your left) until the faculty
(7 minutes walk).
Meeting
Point
Telephone
Fax
Email
Main Hall
+34 91 336 71 56
+34 91 544 21 49
[email protected]
[email protected]
• Objectives
The objectives of this course are to provide a practical introduction to
the use of CFD codes in Engineering, mainly on hydrodynamics.
The students will acquire skills in modeling and meshing 3D geometries
which they will use to run panel method codes for the computation of the
potential flow around a body (with special attention to problems with a free
surface) and finite element codes for the computation of viscous flows. Also,
they will be able to use a commercial CFD code as STAR-CCM+.
At the end of the course, an approach to the methods for the validation
of the CFD results will be done.
• Program
Monday
0) Welcome speech: Introduction to PROMARC
Professor: Luis Pérez-Rojas
9:30-9:45
1) Introduction to CFDs
Professor: Luis Pérez-Rojas
9:45-11:00
Coffee break
11:00-11:15
PART 1. PANEL METHODS.
2) 3D Panel methods
Professor: Antonio Souto-Iglesias
3D Panel methods
11:15-13:30
Lunch break
13:30-14:30
3D Panel methods
14:30-16:30
Tuesday
3D Panel methods
9:30-11:00
Coffee break
11:00-11:15
3D Panel methods
11:15-12:15
3) 3D Panel methods with Free Surface
Professor: Antonio Souto-Iglesias
3D Panel methods with Free Surface
12:30-13:30
Lunch break
13:30-14:30
3D Panel methods with Free Surface
14:30-16:30
Wednesday
PART 2. FINITE ELEMENTS.
4) Introduction to Finite Elements
Professor: Leo González-Gutiérrez
Introduction to Finite Elements
9:30-11:30
Coffee break
11:30-11:45
Introduction to Finite Elements
11:45-13:30
Lunch break
13:30-14:30
7) Experimental test (Series 60: Validation of CFD results) 1
Professor: Luis Pérez-Rojas
Test in Model Basin
14:30-16:30
Thursday
5) Transport and Diffusion
Professor: Leo González-Gutiérrez
Transport and Diffusion
9:30-11:30
Coffee break
11:30-11:45
6) 2D Finite Elements
Professor: Leo González-Gutiérrez
1
2D Finite Elements
11:45-13:30
Lunch break
13:30-14:30
In order to a better comprehension of the activity, the participants will be divided into two separated
groups. Each group will make the practice a different day.
PART 3. SERIES 60: VALIDATION OF CFD RESULTS
7) Experimental test
Professor: Luis Pérez-Rojas
Test in Model Basin
14:30-16:30
Friday (morning)
8) Application of a commercial code: STAR.CCM+
Professor: Patricia Izaguirre-Alza
STAR.CCM+
9:30-11:30
Coffee break
11:30-11:45
STAR.CCM+
11:45-13:30
Friday (afternoon)
9) Science and music (in collaboration with the Madrid delegation of
Spanish Society of Naval Architects and Marine Engineers)
Dr. Angelo Olivieri (INSEAN)
CFD validation
18:00-19.00
Jazz Concert
19:30-21.00
Cocktail
21.00-
• Results
The students’ marks will be based on their ability to do the exercises
proposed during the workshop. Active attendance to the sessions will be
compulsory. If a student misses more than three hours of the course, this
student will officially fail the course.
• References & Course materials
Lecturers’
research group
Grid generator
GiD
Panel methods
-
http://canal.etsin.upm.es/
-
http://gid.cimne.upc.es/
-
Hess-Smith technique.
http://canal.etsin.upm.es/proyectos/cfd/cfd_en.h
tml
Finite element
methods
-
http://adfc.sourceforge.net/index_en.html
González-Gutiérrez, L.M., Bermejo, R., A
semi-Lagrangian level set method for
incompressible Navier-Stokes equations with free
surface. International Journal for Numerical
Methods in Fluids.2005.49.1111-1146
STAR-CCM+
-
http://www.cd-adapco.com/
Except GiD and STAR-CCM+, all the codes used for the course have
developed in the framework of the research activities of the lecturers and
they will be fully available for the students after the course has finished.