Cycle of education: 2022/2023
Course outcomes
Speciality: Hydrogen technologies
Symbol | Contents | Reference to the PRK learning outcomes |
---|---|---|
K_W01 | knows the technologies for obtaining hydrogen and evaluates them in terms of availability, technological maturity, production possibilities, and limitations, and selects appropriate technologies taking into account the demand for hydrogen in various applications and sectors of the economy and the possibility of building a supply and distribution chain | P7S_WG |
K_W02 | deeply knows and understands the principles of operation, construction, and operation of devices and systems used for the production of hydrogen and the processes taking place in the life cycle of devices, facilities, and technical systems | P7S_WG |
K_W03 | knows the methods of storing hydrogen in a compressed, liquefied, and solid form, including chemically bound or adsorbed hydrogen, as well as the principles of selecting, designing, and optimizing appropriate devices | P7S_WG |
K_W04 | has an ordered and theoretically founded knowledge of the processes of purification and separation of hydrogen obtained from various sources as well as the design and operation of appropriate equipment | P7S_WG |
K_W05 | knows the principles of designing and operating hydrogen transmission networks | P7S_WG |
K_W06 | knows the methods of assessing the functioning of the existing technological and equipment solutions in terms of increasing energy efficiency, their optimization, and technical safety | P7S_WG |
K_W07 | has knowledge of the new materials and engineering solutions used in advanced hydrogen technologies and knows the current trends in their development | P7S_WG |
K_W08 | knows the possibilities and conditions for the use of hydrogen in various branches of the economy, in particular as a carrier of renewable energy with the possibility of storage on a large scale and as a raw material in industrial technologies | P7S_WG |
K_W09 | has in-depth knowledge of the processes of combustion of hydrogen and its compounds in order to generate energy, as well as knowledge of electrochemical conversion of hydrogen to electricity, and knows the principles of designing and selecting appropriate technical devices | P7S_WG |
K_W10 | knows the economic, legal, ethical, and other conditions of various types of professional activity related to the field of study, including the principles of protection of industrial property and copyright | P7S_WK |
K_W11 | knows the advanced principles of creating and developing various forms of entrepreneurship, including management | P7S_WK |
K_U01 | formulates and solves complex, typical and unusual engineering tasks using in-depth knowledge of chemical, mechanical, materials, environmental protection, and energy engineering using advanced methods, techniques, tools, and materials | P7S_UW |
K_U02 | searches for, selects, and critically analyzes available sources of information, also in a foreign language; performs their synthesis and creative interpretation, including skilfully processing information contained in literature, databases, and other sources related to chemical, mechanical, materials, environmental protection, and energy engineering | P7S_UW |
K_U03 | uses advanced IT tools supporting the design, modelling, simulation, and optimization of industrial processes, calculations, and other engineering tasks | P7S_UW |
K_U04 | plans and conducts experimental research using appropriate tools and techniques, performs calculations, and interprets the collected results | P7S_UW |
K_U05 | assesses the suitability, selects and applies appropriate methods and techniques to assess the quality of raw materials and products, and control the course of processes | P7S_UW |
K_U06 | designs basic apparatus, unit operations and processes taking into account engineering principles and process safety | P7S_UW |
K_U07 | performs a critical analysis of the functioning of existing technical solutions, in particular systems, processes, services, devices and facilities for specific industrial processes and operations | P7S_UW |
K_U08 | integrates the acquired knowledge in the field of chemical and process engineering, mechanical engineering, material engineering, environmental protection and energy when formulating and solving engineering tasks | P7S_UW |
K_U09 | when formulating and solving engineering tasks - recognizes non-technical aspects, including environmental, organizational, economic and legal | P7S_UW |
K_U10 | speaks a foreign language at the B2 + level of the European System for the Description of Languages and specialist terminology in the field of study | P7S_UK |
K_U11 | is able to manage teamwork, interact with other people as part of teamwork and take a leading role in teams, as well as independently plan and implement his own lifelong learning and direct others in this regard | P7S_UO P7S_UU |
K_K01 | understands the need to update their knowledge and improve qualifications, and knows the possibilities of developing professional and interpersonal competences | P7S_KK |
K_K02 | is responsible for their own work and the effects of decisions made; is able to submit to the rules of group work in various roles; is responsible for jointly performed tasks, can act in a creative and entrepreneurial manner | P7S_KO |
K_K03 | is able to correctly define priorities for the implementation of tasks defined by himself or others and to ensure their timely execution | P7S_KR |
K_K04 | is able to correctly identify and resolve dilemmas related to the performance of the profession of an engineer, including: behaving in a professional manner, observing the rules of professional ethics and personal culture | P7S_KR |