Biotechnology 0600-S1-ChK-BioT
Lecture:
Fluid statics and dynamics: ideal fluid, real gas, flow equations, flow resistance, criterion numbers. Principles of design and operation of bioreactors. Mixing processes. Movement of heat and mass. Fermentation: alcoholic, lemon, vinegar, methane. Production and use of ethyl alcohol. Preparation of citric acid by various methods. The use of membrane techniques for the production, separation and purification of compounds. RME and glycerin technology. The use of glycerin in the cosmetics industry. Extraction of dyes from plant materials. Algae cultivation in ponds and photobioreactors. Production from algae: RME, glycerin, ethanol, biogas, butanol, acetone and polyunsaturated fatty acids.
Lab:
The student expands his knowledge of basic concepts related to fluid dynamics and the development of material and energy balance. Learns the structure and principles of operation of basic devices used in the large-scale cosmetics industry. Mass and energy transport processes in real conditions (distillery, biogas plant) will be discussed in detail. The student independently obtains citric acid using bipolar membranes. The student independently extracts dyes from plant materials.
Total student workload
Learning outcomes - knowledge
Learning outcomes - skills
Learning outcomes - social competencies
Teaching methods
Expository teaching methods
- participatory lecture
Exploratory teaching methods
- experimental
Online teaching methods
- content-presentation-oriented methods
- exchange and discussion methods
Type of course
Prerequisites
Course coordinators
Assessment criteria
Lecture: written exam – K_W01, K_W05, K_U01.
Required point threshold according to university-wide rules:
50 - 59% - satisfactory, 60 - 65 sufficient plus, 66 - 75% - good, 76-80% - good plus, 81 - 100% - very good.
Laboratory: assessment based on completed laboratory exercises and studies, final test – K_W01, K_W05, K_U01, K_U03, K_U06, K_U07.
Required point threshold according to university-wide rules:
50 - 59% - satisfactory, 60 - 65 sufficient plus, 66 - 75% - good, 76-80% - good plus, 81 - 100% - very good.
Exam topics:
1. Principle of operation and design of bioreactors.
2. Mass and energy transport in bioreactors.
3. Fermentation: alcoholic, lemon, vinegar, methane.
4. Production and use of ethyl alcohol.
5. Application of membrane techniques in biotechnology.
6. RME and glycerin technology.
7. Extraction of dyes from plant materials.
8. Algae biotechnology.
Practical placement
not applicable
Bibliography
1. A. Zieliński, Technologia chemiczna organiczna, WNT, Warszawa 1973.
2. M.M. Rieger, Surfactants in Cosmetic; Marcel Dekker Inc. New York 1985.
3. W. Brud, R. Glinka, Technologia kosmetyków, Oficyna Wydawnicza Łódź 2001.
4. J. Molenda, Technologia chemiczna, WSiP, Warszawa 2006.
R. E. Kirk-Othmer, Encyclopedia of Chemical Technology, John Wiley&Sons, New York 2007.
5. B. Igliński, R. Buczkowski, Zastosowanie elektrodializy z membrana bipolarną w przemyśle i ochronie środowiska, Przemysł Chemiczny 1(87), 43-47, 2008.
6. B. Igliński, R. Buczkowski, M. Cichosz, Technologie bioenergetyczne, Wyd. UMK, Toruń 2009.
7. B. Igliński, R. Buczkowski, G. Piechota, Algi: źródło energii i substancji chemicznych, Przemysł Chemiczny 6(90), 1186-1190, 2011.
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: