Cycle of education: 2022/2023
The name of the faculty organization unit: The faculty Chemistry
The name of the field of study: Biotechnology
The area of study: technical sciences
The profile of studing:
The level of study: first degree study
Type of study: past time
discipline specialities : Applied biochemistry, Purification and analysis of biotechnological products
The degree after graduating from university: Bachelor of Science (BSc)
The name of the module department : Department of Chemical Engineering and Process Control
The code of the module: 10924
The module status: mandatory for teaching programme Applied biochemistry, Purification and analysis of biotechnological products
The position in the studies teaching programme: sem: 7 / W18 L9 / 2 ECTS / Z
The language of the lecture: Polish
The name of the coordinator: Wojciech Piątkowski, DSc, PhD, Eng.
The main aim of study: Students are acquainting with techniques of purify biotechnological products.
The general information about the module: The student is getting the knowledge in the scope of mixtures separation and cleaning of a products with membrane, chromatography and extraction methods.
1 | R. Rautenbach | Procesy membranowe | WNT. | 1996 |
2 | W. Szewczyk | Technologia biochemiczna | Oficyna Wydawn. Pol. Warszawska. | 2003 |
3 | A. Selecki, R. Gawroński | Podstawy projektowania wybranych procesów rozdzielania mieszanin. | WNT. | 1992 |
4 | Antos Dorota, Kaczmarski Krzysztof, Piątkowski Wojciech | Chromatografia preparatywna jako proces rozdzielania mieszanin. | WNT. | 2011 |
1 | praca zbiorowa pod red. R Petrusa | Inżynieria Chemiczna Laboratorium | Of. Wyd. PRz. | 1998 |
2 | W. Zapała, K. Kaczmarski, I. Poplewska, W. Piątkowski | Wybrane operacje jednostkowe w inżynierii procesowej | Of. Wyd. PRz. | 2012 |
Formal requirements: registration for the given semester
Basic requirements in category knowledge: Student knows basic methods, techniques, tools and materials applied for solving basic problems connected with the biotechnology.
Basic requirements in category skills: Student has a skill for self-education.
Basic requirements in category social competences: NONE
MEK | The student who completed the module | Types of classes / teaching methods leading to achieving a given outcome of teaching | Methods of verifying every mentioned outcome of teaching | Relationships with KEK | Relationships with PRK |
---|---|---|---|---|---|
01 | Student is getting the knowledge about typpical unite operation proceses leading to isolation from the post-reaction mixture a required product. He knows physico-chemical principels of the separation and preparing the product with following methods: permeation, chromatography, extraction, drying and crystallization. | lecture | Colloquium |
K_W10++ |
P6S_WG |
02 | He is able to separate required species with chromatography and membrane methods. | laboratory | pass all exercises |
K_U17++ |
P6S_UO P6S_UW |
Attention: Depending on the epidemic situation, verification of the achieved learning outcomes specified in the study program, in particular credits and examinations at the end of specific classes, can be implemented remotely (real-time meetings).
Sem. | TK | The content | realized in | MEK |
---|---|---|---|---|
7 | TK01 | A30 L15 | MEK01 MEK02 |
The type of classes | The work before classes | The participation in classes | The work after classes |
---|---|---|---|
Lecture (sem. 7) | The preparation for a test:
2.00 hours/sem. |
contact hours:
18.00 hours/sem. |
complementing/reading through notes:
2.00 hours/sem. |
Laboratory (sem. 7) | The preparation for a Laboratory:
2.00 hours/sem. The preparation for a test: 2.00 hours/sem. |
contact hours:
9.00 hours/sem. |
Finishing/Making the report:
2.00 hours/sem. |
Advice (sem. 7) | |||
Credit (sem. 7) | The preparation for a Credit:
15.00 hours/sem. |
The written credit:
2.00 hours/sem. |
The type of classes | The way of giving the final grade |
---|---|
Lecture | test |
Laboratory | Arithmetic mean from grades of exercises |
The final grade | FE = 0.6L+0.4Lab. w - coefficient taking into account the term when positive course credit was obtained, w = 1,0 first term, w = 0,9 second term, w = 0,8 third term. |
Required during the exam/when receiving the credit
(-)
Realized during classes/laboratories/projects
(-)
Others
(-)
Can a student use any teaching aids during the exam/when receiving the credit : no
1 | D. Antos; W. Piątkowski | Equilibria and kinetics of ion-exchange | 2024 |
2 | D. Antos; M. Balawejder; J. Gumieniak; P. Mruc; M. Olbrycht; W. Piątkowski | Separation of non-racemic mixtures of enantiomers by achiral chromatography | 2023 |
3 | D. Antos; M. Kołodziej; W. Piątkowski; T. Rumanek | Preferential precipitation of acidic variants from monoclonal antibody pools | 2023 |
4 | D. Antos; M. Kołodziej; W. Piątkowski; T. Rumanek; P. Zimoch | Coupling of chromatography and precipitation for adjusting acidic variant content in a monoclonal antibody pool | 2023 |
5 | D. Antos; W. Piątkowski | Kinetic and Thermodynamic Aspects of Hydrophobic Interaction Chromatography | 2023 |
6 | D. Antos; A. Bajek-Bil; M. Balawejder; M. Olbrycht; W. Piątkowski | Sposób otrzymywania stereoizomeru szczawianu nafronylu o konfiguracji absolutnej (2S, 2\'R) | 2021 |
7 | D. Antos; A. Bajek-Bil; M. Balawejder; M. Olbrycht; W. Piątkowski; I. Poplewska | Development of a Route to the Most Active Nafronyl Stereoisomer by Coupling Asymmetric Synthesis and Chiral Chromatography Separation | 2021 |
8 | D. Antos; K. Baran; W. Piątkowski; A. Stańczak; P. Zimoch | Separation of charge variants of a monoclonal antibody by overloaded ion exchange chromatography | 2021 |
9 | D. Antos; P. Antos; M. Balawejder; R. Bochenek; J. Gorzelany; K. Kania; M. Kołodziej; N. Matłok; M. Olbrycht; W. Piątkowski; M. Przywara; G. Witek | Sposób wytwarzania nawozu wieloskładnikowego o kontrolowanym uwalnianiu składników | 2021 |
10 | D. Antos; W. Piątkowski; I. Poplewska | A case study of the mechanism of unfolding and aggregation of a monoclonal antibody in ion exchange chromatography | 2021 |
11 | D. Antos; G. Carta; M. Kołodziej; R. Muca; W. Piątkowski | Effects of negative and positive cooperative adsorption of proteins on hydrophobic interaction chromatography media | 2020 |
12 | D. Antos; J. Beck; A. Durauer; R. Hahn; A. Jungbauer; M. Kołodziej; W. Marek; W. Piątkowski; D. Sauer | Scale up of a chromatographic capture step for a clarified bacterial homogenate - Influence of mass transport limitation and competitive adsorption of impurities | 2020 |
13 | D. Antos; P. Antos; M. Balawejder; R. Bochenek; M. Kołodziej; N. Matłok; M. Olbrycht; W. Piątkowski; M. Przywara | Mechanism of nutrition activity of a microgranule fertilizer fortified with proteins | 2020 |
14 | D. Antos; K. Baran; W. Marek; W. Piątkowski | Effect of flow behavior in extra-column volumes on the retention pattern of proteins in a small column | 2019 |
15 | D. Antos; M. Balawejder; H. Lorenz; M. Olbrycht; W. Piątkowski; I. Poplewska; A. Seidel-Morgenstern | Cooperative Kinetic Model to Describe Crystallization in Solid Solution Forming Systems | 2019 |
16 | D. Antos; M. Kołodziej; A. Łyskowski; W. Piątkowski; I. Poplewska; P. Szałański | Determination of protein crystallization kinetics by a through-flow small-angle X-ray scattering method | 2019 |
17 | D. Antos; P. Antos; M. Balawejder; R. Bochenek; J. Gorzelany; K. Kania; M. Kołodziej; N. Matłok; M. Olbrycht; W. Piątkowski; M. Przywara; G. Witek | Sposób wytwarzania nawozu wieloskładnikowego o kontrolowanym uwalnianiu składników | 2019 |