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Faculty: FMEAbbreviation: D-ENE-AAcad. year: 2023/2024
Type of study programme: Doctoral
Study programme code: P0713D070006
Degree awarded: Ph.D.
Language of instruction: English
Accreditation: 18.2.2020 - 18.2.2030
Mode of study
Full-time study
Standard study length
4 years
Programme supervisor
doc. Ing. Pavel Rudolf, Ph.D.
Doctoral Board
Chairman :doc. Ing. Pavel Rudolf, Ph.D.Councillor internal :prof. Ing. Jan Jedelský, Ph.D.doc. Ing. Zdeněk Jegla, Ph.D.doc. Ing. Jaroslav Katolický, Ph.D.prof. Ing. Jiří Pospíšil, Ph.D.Councillor external :Ing. Milan Kořista, Ph.D.
Study aims
The aim of the doctoral study in the suggested programme is: • Training of creative highly educated workers in the field of energy engineering and closely related engineering fields, who will be prepared to work in research and development in industrial companies, research institutes and organizations in our country and abroad. • To enable the doctoral student to develop talent for creative activities and further development of a scientific or engineering personality. To ensure the development of his ability to process scientific knowledge in the field of study and related fields. • Graduates will be able to do independent scientific work, especially in the field of applied but also basic research. • The doctoral student is guided not only to gain knowledge in the field studied, but also to its further development. • The focus of the study is primarily on basic and applied research in the following areas: design, development and operation of energy and fluid machines and equipment, combustion, environmental engineering, process engineering, fluid mechanics, thermomechanics. • The graduate has a very good knowledge of field theory and modern approaches in the field of computational and experimental modeling. • The graduate has skills and abilities in the field of publishing and sharing R&D results in Czech and especially English.
Graduate profile
• The profile of the graduate corresponds to the current state of scientific knowledge in the field of energy engineering and allows him to further develop research in the field. • The graduate is a creative personality capable of independent and team scientific work, has sufficient skills for the preparation, implementation and management of R&D projects. • The graduate is able to transfer results between basic and applied research and collaborate in multidisciplinary international scientific teams. • During the study, the doctoral student will gain broad knowledge and skills in the field of fluid flow, heat transfer, design and operation of energy machines, equipment and systems. • It is assumed that graduates will find employment as R&D workers in academic research organizations or in research institutes and departments of applied research of industrial enterprises in the Czech Republic and abroad, in ordinary and senior positions.
Profession characteristics
The graduate of the doctoral study programme in Energy Engineering will be prepared for independent and team R&D work in the academic environment, research organizations or research departments of industrial companies in the field of energy, both domestic and foreign. The graduate will have a comprehensive view of current challenges and problems in the field of energy and will be able to respond by analysing the issue, design of appropriate models or technical measures and equipment. Therefore, they will be a suitable candidate not only for positions in the field of R&D, but also in public administration, consulting companies or managerial positions of companies focusing on energy.
Fulfilment criteria
See applicable regulations, DEAN’S GUIDELINE Rules for the organization of studies at FME (supplement to BUT Study and Examination Rules)
Study plan creation
The rules and conditions of study programmes are determined by: BUT STUDY AND EXAMINATION RULES BUT STUDY PROGRAMME STANDARDS, STUDY AND EXAMINATION RULES of Brno University of Technology (USING "ECTS"), DEAN’S GUIDELINE Rules for the organization of studies at FME (supplement to BUT Study and Examination Rules) DEAN´S GUIDELINE Rules of Procedure of Doctoral Board of FME Study Programmes Students in doctoral programmes do not follow the credit system. The grades “Passed” and “Failed” are used to grade examinations, doctoral state examination is graded “Passed” or “Failed”.
Availability for the disabled
Brno University of Technology acknowledges the need for equal access to higher education. There is no direct or indirect discrimination during the admission procedure or the study period. Students with specific educational needs (learning disabilities, physical and sensory handicap, chronic somatic diseases, autism spectrum disorders, impaired communication abilities, mental illness) can find help and counselling at Lifelong Learning Institute of Brno University of Technology. This issue is dealt with in detail in Rector's Guideline No. 11/2017 "Applicants and Students with Specific Needs at BUT". Furthermore, in Rector's Guideline No 71/2017 "Accommodation and Social Scholarship“ students can find information on a system of social scholarships.
What degree programme types may have preceded
The newly proposed doctoral study programme in Energy Engineering is being created as a new one within the institutional accreditation of the field of education "Energy". It follows on from the bachelor's degree in the specializations of the bachelor's study programme in Energy and the subsequent master's degree programmes in Energy and Thermofluid Engineering and Process Engineering. It is an education combining solid theoretical foundations in applied mechanics, design of power machines, design and operation of power systems, knowledge and skills in computational and experimental modelling in the field of power engineering and applied fluid mechanics and thermomechanics. In the case of applicants from other faculties or universities, it is necessary that they master the above-mentioned disciplines at the level taught in these programmes.
Issued topics of Doctoral Study Program
Renewable energy sources are foreseen to become the main energy source for hydrogen production in the future. Renewable energy sources are inherently variable in terms of energy supply and battery storage appears to be the most suitable way of short-term electricity storage in this respect. Prior to the development of the infrastructure for hydrogen production and distribution, hydrogen will mainly be produced locally. The optimal size of battery storage for local renewable hydrogen production depends on a number of design parameters and operating conditions, many of which are time dependent and even random. The objective of the work is to develop an optimization model of a battery storage system for local renewable hydrogen production accounting for time-variable and random input parameters.
Tutor: Charvát Pavel, doc. Ing., Ph.D.