ECTS credits ECTS credits: 3
ECTS Hours Rules/Memories Hours of tutorials: 1 Expository Class: 12 Interactive Classroom: 14 Total: 27
Use languages Spanish, Galician
Type: Ordinary subject Master’s Degree RD 1393/2007 - 822/2021
Departments: Chemistry Engineering
Areas: Chemical Engineering
Center Higher Technical Engineering School
Call: Second Semester
Teaching: With teaching
Enrolment: Enrollable | 1st year (Yes)
The course has the following aims in relation to knowledge and skills to be achieved by the student: i) to know the importance of viscoelasticity and how the strain is modified under shear and extensional stresses; ii) to know the parameters involved in the rheological functions of fluids, particularly in polymer systems; iii) to understand the rehological behaviour of multiphase systems (suspensions, emulsions, polymer mixtures) of chemical, food and cosmetic interest, among others, iv) to know the experimental equipment and advanced hybrid techniques for the determination of structural-rheological processes, and v) to measure experimentally of rheological properties of different kinds of fluids.
The course will combine the mechanical fundamentals with practical applications in the engineering field by means of the study of cases and problems.
a. Lectures.
Theme 1. Importance of the rheology in the industry. Mathematical fundamentals of the strain and flow of fluids. Viscoelasticity: solids and liquids. Texture. Newtonian and non-Newtonian fluids. Apparent viscosity. (2 h)
Theme 2. Non-Newtonian fluids. Classification. Inelastic and dependent time fluids. Modelling. (2 h)
Theme 3. Viscoelastic fluids. Loss and storage moduli. Complex viscosity. Mechanical models. SAOS and LAOS. Extensional viscosity. (6 h)
Theme 4. Rheology of biopolymer systems. Effects of shear rate, temperature (sol-gel transitions), pressure, concentration, molecular structure, average and distribution molecular size. Industrial examples. (7 h)
Theme 5. Equipment for experimental determination of viscosimetric, rheological and textural properties. Types of viscometers. Rheometres. Texturometers. (1 h)
b) Interactive lessons:
Activity 1. Seminars of exercises-solving. (6h)
Actividad 2. Lab practices in the Research Group (GI-1618) installations.
- Description of equipment for the determination of viscosity and acquisition of techniques. Determination of viscosities of Newtonian solutions. Influence of temperature and concentration (2 h)
- Description of the rheometer, experimental techniques and software Determination of viscoelastic behaviour. Loss and storage moduli determination. (4 h)
- Description of texturometer and methodology. Assays of compression. Determination of elasticity modulus and stress. (2 h)
The group titorial (1 h) will be employed in the oral presentation of the results acquired during the lab practice from the development of report in scientific paper format.
Basic Bibliography
BARNES, H.A., HUTTON, J.F., WALTERS, K. An Introduction to Rheology, Elsevier, Amsterdam: Elsevier. 1989. ISBN: 0-8208-444-820887469-208-0. Signature: FS 3. (e-book is disposal).
Complementary Bibliography
GOODWIN, J.W., HUGHES, R.W. Rheology for Chemists: An Introduction. New York: RSC. 2008. ISBN: 978-0-85404-839-7
CARREAU, P.J., DE KEE, D.C.R., CHHABRA, R.O. Rheology of Polymeric Systems. Cincinnati: Hanser. 1997. ISBN: 978-1-56990-218-9
MORRISON, F.A. Understanding Rheology. Oxford: Oxford University Press. 2001. ISBN: 978-0-19514-166-5
knowledge
(CN02) Acquire advanced knowledge and demonstrate, in a context of scientific and technological research or highly specialization, a detailed and well-founded understanding of the theoretical, practical aspects and work methodology in one or more fields of study of Chemical Engineering .
competence
(CP02) Conceptualize engineering models, apply innovative methods in problem solving and appropriate computer applications for the design, simulation, optimization and control of processes and systems.
Skills
(HD04) Search, process, analyze and synthesize, critically, information from various sources to establish the corresponding conclusions.
(HD09) Address problems from a scientific perspective, recognizing the importance of finding and managing existing information.
The lectures will be developed orally, with the support of digital presentations. The interactive classes corresponding to the resolution of practical problems will be developed on a blackboard in the classroom, paying great attention to the speed and pace of presentation and interaction with the students, highlighting the scientific and technical aspects, both in relation to calculation and applications. The lab sessions will be carried out following the protocol established previously of each practice and with the greatest possible detail regarding the handling of equipment and experimental techniques. Viscometric and rheological measurement equipment has basic operating manuals available to students.
On the first day of class, all the necessary teaching material will be available to students (subject program, subject contents, problem bulletin, assignments, practice scripts, etc.) on the course of campus virtual.
Attendance at practices is mandatory.
Learning outcomes report:
Lectures CN02, HD09
Seminars CP02, HD09
Laboratory CP02, HD04
Presentation of the topic.
Topic 1. Importance of rheology in industry. Mathematical foundations of fluid deformation and flow. Viscoelasticity: solids and liquids. texture Newtonian and non-Newtonian fluids. Apparent viscosity. (2 h)
Topic 2. Non-Newtonian fluids. Classification of inelastic and time-dependent fluids. modeling (2 h)
Laboratory: Description of viscosity determination equipment and acquisition of techniques. Determination of viscosities of liquid solutions with Newtonian behavior. Influence of temperature and concentration. (2 h)
Topic 3. Viscoelastic fluids. Loss and storage modules. Complex viscosity. Mechanical models. SAOS and LAOS. Extensional viscosity. (6 h)
Laboratory: Description of the rheometer and the experimental techniques and the corresponding software. Determination of viscoelastic behavior. (2 h)
Topic 4. Rheology of biopolymeric systems. Effects of shear rate, temperature (sol-gel transitions), pressure, concentration, molecular structure, average molecular size and size distribution. Examples of interest in the industry. (6 h)
Laboratory: Evaluation of loss and storage modules. (2 h)
Topic 5. Equipment for the experimental determination of viscometric, rheological and textural properties. Types of viscometers. Rheometers. Texturometers. (2 h)
Laboratory: Description of the texturometer and methodology. Compression fracture tests. Evaluation of modulus of elasticity and breaking stress. (2 h)
Student learning will be monitored through activities (CN02), work (including presentation in class) (CN02, HD09) or solving problem individually and/or in groups (CP02, HD04). The lab practices will be graded based on the evaluation of the practices report and their oral defense (CP02, HD04). Students will also take a problem-solving exam (CN02, CP02, HD09).
The only requirement is that the practices have been carried out and passed before the exam. Any grade obtained during the course and evaluable in the first opportunity of each call, will be kept, if applicable, in the second opportunity.
Assessment Distribution
exam 50%
Tasks/activities/practice reports 40%
Tutorials 5%
Teacher report 5%
Student learning will be monitored by completing problems and activities individually and/or in groups. In addition, students will take a problem-solving exam that, together with the laboratory report, will allow them to individualize the final grade.
To pass it is necessary to obtain at least a total of 5 points and 3/10 in each of the parts of the evaluation, except in the Tutorials/teacher's report sections.
In the recovery opportunity, the accumulated score of the continuous evaluation is maintained.
In additional calls, the student will be able to use the grades from the continuous evaluation and if the practices are not suspended, they will not have to repeat them.
In cases of fraudulent completion of exercises or tests, the regulations for evaluating students' academic performance and reviewing grades will apply.
Activity Contact hours Student work hours
Lectures 12
Seminars 8
Laboratory practices 10
Tutorials group 4
Individualized tutoring 4
Exam and review 8
Total 46
Classes will be taught in Spanish.
Viscometric and rheological measurement equipment has basic operating manuals available to students that cover aspects related to safety and health in the laboratory.
The admission and permanence of students enrolled in the practical laboratory requires that they know and comply with the standards included in the “Basic training protocol on security for experimental spaces” of the Higher Technical School of Engineering, available in the security section of its website which can be accessed as follows:
https://www.usc.gal/gl/centro/escola-tecnica-superior-enxenaria
Access the intranet with personal credentials.
Go to Comisións > Seguridade e saúde > Formación.
Click on "Protocolo básico de formación en seguridad para espacios experimentales"
Ramon Felipe Moreira Martinez
Coordinador/a- Department
- Chemistry Engineering
- Area
- Chemical Engineering
- Phone
- 881816759
- ramon.moreira [at] usc.es
- Category
- Professor: University Professor
| Thursday | |||
|---|---|---|---|
| 12:00-14:00 | Grupo /CLE_01 | Spanish | Classroom A6 |
| 05.19.2025 10:00-12:00 | Grupo /CLIL_01 | Classroom A6 |
| 05.19.2025 10:00-12:00 | Grupo /CLIS_01 | Classroom A6 |
| 05.19.2025 10:00-12:00 | Grupo /CLE_01 | Classroom A6 |
| 07.03.2025 10:00-12:00 | Grupo /CLIL_01 | Classroom A6 |
| 07.03.2025 10:00-12:00 | Grupo /CLIS_01 | Classroom A6 |
| 07.03.2025 10:00-12:00 | Grupo /CLE_01 | Classroom A6 |