Czech

Not applicable.

Students will be oriented in calculation and design of pressure vessels and pipes using the membrain theory, they will have the basic information about special materials for pharmacy and biotchnological industry icluding some material degradation (environment affecting on materials).

Basic knowledge of elasticity and strength, material science, machine components.

Not applicable.

The course uses teaching methods in form of Lecture - 2 teaching hours per week. The e-learning system (LMS Moodle) is available to teachers and students.

Marked credits are awarded on the basis of written essay (including simple design calculation of wall thiskness) and oral discussion (colloquium)

1. History of pressure vessels and apparatuses, contemporary examples. Basic technological types (vessels, apparatuses, reactors, pipelines, armatures).
2. Technical requirements on constructions – standards (selection of materials, technical, operating, safety, and reliability factors).
3. Design of technological apparatuses, basic principles (technological, strength, economical, and lifespan factors).
4. Selection of material for production units, corrosion protection and surface treatment. Production of metallurgical material, standards for its assortment.
5. Destructive material testing.
6. Overview of materials connecting (welding, pressing, screwed joints and their sealing). Welding methods, welds marking on drawings. Legislative demands on tightness.
7. Overview of weld defects. Forms of crack formation (hot, cold, lamellar, annealing). Testing of weld joints.
8. Design of wall thickness for pipelines, vessels and apparatuses under inner or external overpressure, own weight, and vibrations.
9. Degradation mechanisms on equipment (material fatigue, effect of increased
10. Evaluation of lifetime of production equipment on the basis of their design and construction, production method, degradation mechanisms and loading history.
11. Reliability of equipment, assessment of risk of failure and accident.
12. Non-destructive tests in production and during equipment operation (visual, ultrasound, radiation, capillary).
13. Operating of technological systems (control, maintenance, tests, monitoring, qualification, legislative requirements).

Not applicable.

The aim is to explain problems of design and construction of pressure tanks and vessels and to teach practical applications. Explanation of differences in construction of processing lines and standard constructions, especially from the point of view of safety.

Not applicable.

Not applicable.

Not applicable.

Bailey, J, Ollis,D.: Biochemical engineering fundamentals, McGraw-Hill, 1977 (CS)
Johnson, A. T.: Biology for engineers. CRC Press, c2011, ISBN: 978-1-4200-7763-6 (CS)
Medek, J.: Hydraulické pochody, VUT Brno FSI, 2000 (CS)
Medek, J.: Mechanické pochody, VUT Brno FSI, 1998 (CS)
Moláček, M.: Konstrukce zpracovatelských strojů, VUT Brno FSI, 1989 (CS)
Street, L. J.: Introduction to biomedical engineering technology, CRC, London : Taylor & Francis, 2008, ISBN: 0849385334 (CS)
Uherek, J.:Biotechnologické linky, VUT Brno FSI, 1988 (CS)

Not applicable.