|Qualification Awarded||Master degree, Ing.|
|Level of Qualification||Second Cycle|
|Access to Further Studies||The graduates may continue in a Third cycle|
|Graduation Requirements||120 ECTS Credits, Final state examination, Diploma thesis|
|Mode of Study||Full-time|
|Programme Director or Equivalent||Personal ID||Name|
|HON106||doc. Ing. Stanislav Honus, Ph.D.|
|Course Structure Diagram with ECTS Credits||1. year / Winter semester||1. year / Summer semester|
|30 ECTS Credits||30 ECTS Credits|
|2. year / Winter semester||2. year / Summer semester|
|30 ECTS Credits||30 ECTS Credits|
|Specific Admission Requirements|
|Specific admission requirements are determined by the Dean of the faculty. For more information please click here.|
|Specific Arrangements for the Recognition of Prior Learning|
|Informal learning - max. 60% of credits gained in prior lifelong learning can be recognized, as determined by the Dean of the Faculty.|
|Qualification Requirements and Regulations|
|Finished higher education in Bachelor's degree programme.|
|The Czech educational system is regulated by the Higher Education Act (Act 111/1998). Studies at VSB-TUO are regulated by the Statute of VSB – Technical University of Ostrava.|
|Profile of the Programme|
|Energetics is among the primary global strategic areas, and vigorously develops.
The general objective of this programme is to educate graduates with the knowledge and skills to be able to solve problems of technical practice in the field of energy, ecology and environment.
The objective is the preparation of university educated specialists with relevant theoretical and professional knowledge who are able to operate or manage power units and individual machines and equipment and design, realize, evaluate and diagnose including an assessment of their effectiveness. Emphasis is also placed on the ability to use modern computational methods and the effective evaluation of technical measurement outputs. Graduates are thus able to present results and cooperate on innovative activities in the energy sector.
Due to the above facts, graduates of this study programme will have a high chance of finding employment in the field.|
|Key Learning Outcomes|
|Key Lerning Outcomes are Expressed in following Structure: Knowledge, Skills, General competencies |
|Students will acquire knowledge necessary for design, operation or management work in power engineering, environmental engineering and related fields. Students deepen their knowledge of the theory of fluid mechanics, heat and mass transfer and combustion and become more familiar with the construction and operation of basic power industry units such as power centrals, boilers, turbines, compressors, internal combustion engines. Furthermore, students will acquire knowledge in the field of water management in power engineering, air protection and in the field of operation, regulation, diagnostics and maintenance in power engineering. Students will therefore be equipped with knowledge in the field of utilization of energy sources, its production and transformation and operation of power machines and equipment, which will enable them to grow professionally through creative involvement in the work process or by continuing their doctoral studies. Knowledge of ecological aspects of energy and understanding of environmental impact of energy practice will enable graduates to solve problems of energy practice in a broader social context.|
|Students can reliably apply their expertise and understanding within a specialized area to solve complex and unpredictable problems with a professional approach using innovative methods, tools and supporting argumentation. Students are able to use technical terminology and process technical documentation in the field of energy, understand technical drawings and have knowledge of the main technical methods of the field (e.g. compilation of energy balances, assessment of energy intensity of processes, etc.) are able to operate, manage power units and individual machines and equipment. They will be able to design, implement, evaluate and diagnose energy works, including energy systems, and assess their efficiency.
Graduates will thus be able to present results and cooperate on innovative activities in the energy sector. Based on the study of compulsory elective courses, graduates are also able to independently perform basic energy measurements in order to optimize the operation of power machines and equipment, they can analyze the possibilities of using alternative energy sources, perform thermal and other energy calculations and design proposals.|
|Graduates are able to approach creatively and proactively to work, manage more complex professional activities or projects, including planning, implementation and feedback, take responsibility for all related decisions, effectively work under the guidance or partnership of qualified professionals, and lead multi-member, comprehensive and diverse groups. They are able to formulate and present their own views, reflect views of other members of the group, to communicate information, ideas, problems and solutions comprehensively to professionals and laymen using a variety of techniques, to use knowledge and skills in at least one foreign language.
In addition, graduates are able to use basic ICT skills, consistently assess their own learning and identify their own learning needs in an unknown and changeable environment requiring a high degree of autonomy and helping others find learning needs. Graduates are able to work in various job positions in the field of energy.|
|Occupational Profiles of Graduates with Examples|
|The content of the study programme is based on the social needs of university-educated energy experts and the objectives of the study programme correspond to labor market demand and it is presumed that graduates will be employed as designers, constructors or operators of energy systems and equipment with technical, economic and environmental knowedge.
The graduate can work in practice as:
• worker in power engineering, development, design, construction, manufacturing, assembly and testing,
• Operations, design and managerial staff in power plants and heating plants, in the energy departments in all types of industrial enterprises and in the non-manufacturing sector, such as waste water treatment plants, waste management companies, etc.
• designer during investment construction in power engineering,
• worker or manager in institutions and state administration departments dealing with energy, safety and environmental care,
• a technician, a calculator or a designer in power companies,
• Inspection and testing technician of power equipment, a person professionally qualified for supervision of thermal waste treatment,
• energy specialist, independent worker for energy audits and for providing consulting and advisory services,
• a worker holding managerial positions in energy companies.|
|Examination Regulations, Assessment and Grading|
|Examination regulations, assesment and grading are described in the Study and Examination Rules.|
|Course block: Compulsory - all courses are compulsory.|
|Course block: Choice-compulsory - student has to choose at least one course from the list of courses.|
|Course block: Optional - student can choose any course from the list of courses.|
|IMPORTANT: Student has to select so many courses to reach 30 ECTS credits per semester. Rules in detail and convenient selection of courses can be consulted with the programmme director. |
Bellow stated courses are assigned for the degree studies only. Students coming to VSB-TUO for an exchange stay must select courses from the List of courses for exchange students.