Detail předmětu

Bioengineering II

FCH-MA_BIO2Ak. rok: 2023/2024

Bioengineering II is targeted to give students overview of industrial processing and production used in biochemical engineering, industrial microbiology, biotechnology and biomedical technologies. The students will understand the essential processess used in biochemical engineering processess such as measurement of dissolved oxygen, aeration, agitation, fermentation, cell growth in culture. They will understand that bioreactor is the main part of any biochemical proces for the production of biological products. The important part of the lectures are processess connected with upstream and downstream processing. At the end the lessons will explain the basic knowledge from tissue engineering and nanobiotechnology.  

Jazyk výuky

angličtina

Počet kreditů

4

Nabízen zahraničním studentům

Pouze domovské fakulty

Vstupní znalosti

Without restriction  

Pravidla hodnocení a ukončení předmětu

During the semester and at the end of the semester, students take part on one written test focused on the calculations. The condition of the receiving credit (allowing for the exam) is to obtain 60% points. Students who do not meet this requirement may pass the test in two substitute terms in the exam period.

  
Conditions for passing the exam:

1) credit (written test after completing all the exercises, it is necessary to obtain at least 60% of points), obtaining a credit is a necessary condition for the possibility of delaying the exam.

2) written exam (to pass the exam, it is necessary to obtain at least 60% of points from the test). If necessary, there will be the possibility of an oral retest.


Attendance at lectures is not obligatory  but it is recommended. At seminars the calculations of model examples are given - attendance is obligatory.  

Učební cíle

Cílem předmětu je umožnit studentům porozumět inženýrským principům používaným v biotechnologiích, v chemickém inženýrství a v biomedicínských technologiích. Předmět je zaměřen na praktické přístupy používané v bioinženýrství. 

Students will understand the concept of bioengineering and the importance of basic operations associated with microorganisms and cell cultures cultivation. They will also be able to describe the importance of transport systems and tissue engineering from the point of view of bioengineering.  

Základní literatura

Rao D. G.: Introduction to Biochemical Engineering, sec.ed., Tata McGraw, 2010. (EN)

Elearning

Zařazení předmětu ve studijních plánech

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Typ (způsob) výuky

 

Přednáška

26 hod., nepovinná

Vyučující / Lektor

Osnova

Within the subject, students will be introduced to the engineering aspects of biotechnological and biochemical processes at the level of the preparatory phase of the process (up-stream), cultivation and isolation and product processing (down-stream). Attention will be focused on current and new trends in biotechnology and bioengineering, such as the use of modern cultivation techniques (membrane bioreactors, immobilized systems, etc.). Last but not least, students will be introduced to new trends in tissue engineering and nanobiotechnology. The aim of the subject Bioengineering II is to provide students with an overview of industrial processing and production procedures used in biochemical engineering, industrial microbiology, biotechnology and biomedical technologies. Students will understand the basic processes used in biochemical processes such as dissolved oxygen measurement, aeration, mixing, fermentation, cell growth in culture. Furthermore, students will be introduced to advanced cultivation techniques such as membrane reactors, immobilized systems, with specific cultivation requirements of cell cultures, etc. Downstream processes - product isolation and purification - are an important part of the lectures. At the end of the course, students will be introduced to the basic knowledge of tissue engineering and nanobiotechnology. 

1. Introduction, construction of bioreactors
2. Fundamental processes, parameters in submerged cultivations
3. Advanced cultivation processes and equipment
4. Immobilized systems
5. Membrane bioreactors
6. Cultivation of animal and plant cell cultures
7. Monitoring of the processes in bioreactors
8. Down-stream processes
9. Isolation and purification of proteins
10. Isolation of low-molecular metabolites
11. Advanced delivery systems in bioengineering
12. Tissue engineering
13. Nanobiotechnology  

Konzultace v kombinovaném studiu

26 hod., nepovinná

Vyučující / Lektor

Cvičení

13 hod., povinná

Vyučující / Lektor

Elearning