Cycle of education: 2022/2023
Course outcomes
Speciality: Pharmaceutical engineering
Symbol | Contents | Reference to the PRK learning outcomes |
---|---|---|
K_W01 | has basic knowledge of mathematics and physics useful for describing chemical and physical processes and phenomena, formulating and solving simple engineering tasks, including performing calculations needed in engineering practice and scientific research | P6S_WG |
K_W02 | has knowledge of biology, chemistry, and related sciences required to understand and interpret phenomena and processes related to pharmaceutical engineering | P6S_WG |
K_W03 | has basic knowledge of materials science, machine science and engineering structures enabling the design of process equipment | P6S_WG |
K_W04 | has knowledge of process thermodynamics and the implementation of unit operations that are elements of production processes | P6S_WG |
K_W05 | has basic knowledge in the construction of equipment and installations in the pharmaceutical and related industries | P6S_WG |
K_W06 | has knowledge in the field of pharmaceutical production technology, technological process engineering, and orientation in the current directions of technology and engineering development in the pharmaceutical industry and the challenges for this industry | P6S_WG |
K_W07 | has structured and theoretically based knowledge of natural and synthetic raw materials used in the pharmaceutical industry, methods of their identification and characterization in terms of quantity and quality | P6S_WG |
K_W08 | knows the basic methods, techniques, tools, and materials used to separate, purify, and characterize pharmaceutical products in chemical, pharmacological, and toxicological terms | P6S_WG |
K_W09 | has knowledge of biochemistry, systems biology, toxicology, and pharmacology required to design pharmaceutical products and understand their impact on living organisms | P6S_WG |
K_W10 | knows the rules of marketing authorization of pharmaceutical products, knows the requirements for the manufacture and quality assessment of medicinal substances and products, including pharmacopoeial and GMP recommendations | P6S_WG |
K_W11 | has general knowledge necessary to understand the social, economic, legal, and other non-technical conditions of engineering activity | P6S_WK |
K_W12 | has basic knowledge of management, including quality management and running a business | P6S_WK |
K_W13 | has detailed knowledge of typical methods and tools for solving simple engineering tasks of a practical nature | P6S_WG |
K_U01 | has the ability to search, understand, analyze, and creatively use information from literature, databases, standards and other sources, also in a foreign language, is able to draw appropriate conclusions and formulate their own opinions | P6S_UW P6S_UK |
K_U02 | is able to communicate using various techniques in a professional environment and in other environments, also in a foreign language | P6S_UK |
K_U03 | has language skills in the field of technical sciences in accordance with the requirements specified for level B2 of the Common European Framework of Reference for Languages and can use a specialized language in the field of pharmaceutical engineering | P6S_UK |
K_U04 | can use computer programmes for data processing, analysis, and graphical presentation, as well as software supporting design, simulations, and other engineering tasks | P6S_UW |
K_U05 | is able to plan and conduct experimental research and analyses, as well as computer simulations using appropriate tools and techniques, perform calculations and interpret the collected results | P6S_UW |
K_U06 | is able to assess the usefulness, select, and apply appropriate analytical methods and techniques for qualitative and quantitative analysis, and to control the course of processes and to assess the quality of raw materials and products | P6S_UW |
K_U07 | is able to select raw materials and appropriate technologies and assess the possibility of waste management in technological processes of the pharmaceutical industry | P6S_UW |
K_U08 | understands and is able to explain the physical and chemical basis of phenomena occurring during processes and unit operations | P6S_UW |
K_U09 | is able to design basic devices, processes, and unit operations used in the pharmaceutical industry, taking into account engineering principles and process safety | P6S_UW |
K_U10 | is able to choose the method of analysis, plan, and carry out experimental work covering issues in the field of molecular biology, biotechnology, and cell cultures involving the assessment of the impact of pharmaceutical products on living organisms | P6S_UW |
K_U11 | is able to make a critical analysis of the functioning of existing technical solutions, in particular systems, processes, services, devices and facilities for the needs of specific industrial processes and operations | P6S_UW |
K_U12 | is able to apply the principles of GMP and process safety in practice and is able to identify chemical and microbiological hazards related to the production of pharmaceuticals | P6S_UW |
K_U13 | when formulating and solving engineering tasks - notices nontechnical aspects, including environmental, organizational, economic, and legal aspects | P6S_UW |
K_U14 | is able to plan and organize their own work and work in a team carrying out a common task | P6S_UO |
K_U15 | has the ability to self-educate, improve professional competences, and supplement their knowledge throughout their professional life | P6S_UU |
K_K01 | understands the need to update their knowledge and improve qualifications and knows the possibilities of developing professional and interpersonal competences | P6S_KK |
K_K02 | is responsible for his/her own work and the consequences of decisions made, is able to follow the principles of team work in various roles, is responsible for jointly performed tasks, is able to act in a creative and enterprising manner | P6S_KO P6S_KR |
K_K03 | is able to correctly define priorities for the implementation of tasks defined by himself or others and ensure their timely completion | P6S_KR |
K_K04 | is able to correctly identify and resolve dilemmas related to the performance of the engineering profession, including: professional behaviour, compliance with the principles of professional ethics, and personal culture | P6S_KR |