Presentation of study programmes - Information about a study programme

Application shows summary of individual study programmes, fields of study and tracks of individual faculties of the university. The details about the selected study programme are available here. The details relate to the selected initial study period.

Faculty: Faculty of Engineering
Initial period:
WS 2019/2020 - TF
Level of study: Master
4112T11 I-TBS Machinery for Biosystems
Language of instruction:

Additional information about programme

Programme supervisor:prof. Ing. Štefan Mihina, PhD.
Programme co-supervisor:

Study programme characteristic

A graduate of the second degree in the Biosystems Engineering study program is capable of effectively designing, optimizing, managing, controlling and operating the technical machines and equipment used in biosystems in the production of agricultural products (plant and animal), food, biomass for energy and other industrial utilization.
He / she is able to use an extensive basis of technical knowledge based on crucial mathematical and physical knowledge, principles of mechanisms, machines and equipment, fundamentals of engineering technology, fundamentals of cultivation and production of agricultural crops, livestock farming and processing of biological raw materials.
He / she can be employed in the labor market as a production engineer of technical specialization, ready for production management, designing production lines and ensuring their safe and reliable operation not only in agriculture, but also in bioenergy, food, technical services and development, testing and certification of machines, as well as maintenance and repair and also as a teacher of vocational schools.
During the study he / she gains the necessary knowledge and is able to understand the essential concepts, principles and theoretical foundations of machine design in the given field.
He / she is able to use the acquired knowledge and knowledge in the design and design of technical systems in such a way that the systems designed by him meet the requirements for technical rationality, ecological safety and environmental protection, economic efficiency and economy, safety and health protection of labor.
He / she can use appropriate theoretical tools and practical procedures to specify, design, evaluate and implement relevant machines and equipment into production systems. He / she is able to critically analyze and apply appropriate technologies. He / she can evaluate these systems according to the criteria of technical, economic and environmental efficiency, occupational safety and health protection. It is able to assess risk areas.
He / she finds and presents his own solutions while being able to use modern methods and means. In doing so, they also use information technology directly linked to production systems. It can operate the equipment effectively and efficiently.
He / she follows the latest developments in his / her discipline and develops his / her own professional development by his / her own education.