Separation Processes

Faculteit Science and Engineering
Jaar 2019/20
Vakcode CHSP-11
Vaknaam Separation Processes
Niveau(s) bachelor
Voertaal Engels
Periode semester II b
ECTS 5
Rooster rooster.rug.nl

Uitgebreide vaknaam Separation Processes
Leerdoelen Acquiring and being able to apply knowledge and insight regarding industrially applied separation processes (with a focus on extraction, absorption and distillation).

At the end of this course, the students should be able to:
1. Describe equilibrium-based processes for the separation of chemical substances (and the principles of non-equilibrium processes).
2. Make reasonable calculations or estimates of flows, concentrations and quantities in separation processes of chemicals.
3. Make simple designs of separation equipment (e.g. number of trays, packing of towers, diameter of towers).
4. Along the way, the students should develop their critical thinking, and their analytical and problem-solving skills.
Omschrijving The course will introduce the students into the most relevant separation processes employed in the chemical industry. The course is based on the principles of mass and energy balances, phase equilibria and physical transport phenomena.
Uren per week
Onderwijsvorm Hoorcollege (LC), Werkcollege (T)
(Total hours of lectures: 18-20 hours, tutorials: 12-14 hours.)
Toetsvorm Schriftelijk tentamen (WE)
(For pass mark, see remarks.)
Vaksoort bachelor
Coördinator prof. dr. P.P. Pescarmona
Docent(en) prof. dr. P.P. Pescarmona ,prof. dr. F. Picchioni
Verplichte literatuur
Titel Auteur ISBN Prijs
Transport Processes & Separation Process Principles
(Not compulsory!)
C.J. Geankoplis 978-1-29202-602-2 ca. €  22,00
Entreevoorwaarden The course Separation Processes is an integral unit that combines concepts from the disciplines of thermodynamics and physical transport phenomena and assumes some prior knowledge acquired from courses covering basic chemical engineering and thermodynamic principles (Single Phase Reactors and Technical Thermodynamics).
Opmerkingen The exams are evaluated based on the following criteria:
- Correctness of theoretical analysis of the problem
- Correctness of the approach used to solve the problem
- Correctness of the numerical solution of the problem
- Correctness of the units in the numerical values.

"A number of points is assigned to each part of each question, and this information is provided on the exam sheets (the total of the points is 9).
The final mark is calculated as: mark = obtained points + 1.

The minimum mark to pass the exam is 6. Half marks are allowed (e.g. 6.5 or 7.5) apart from 5.5 which is rounded up to 6 (if the mark is 5.5) or to 5 (if the mark is < 5.5)."
Opgenomen in
Opleiding Jaar Periode Type
BSc Chemical Engineering 2 semester II b verplicht
BSc Courses for Exchange Students: Chemistry - Chemical Engineering - semester II b Chemistry / Chemical Engineering