Chemical Technology

Podjęcie studiów na kierunku Technologia chemiczna, prowadzonego wspólnie przez dwa Wydziały Inżynierii Materiałowej i Ceramiki oraz Energetyki i Paliw, gwarantuje zdobycie wiedzy, umiejętności i kompetencji społecznych zgodnych z zakładanymi efektami uczenia się, które uwzględniają współczesne potrzeby społeczno-gospodarcze. Student kończący studia II stopnia na kierunku Technologia Chemiczna ma pełną świadomość roli poszczególnych kierunków technologii materiałowych, paliwowych i energetycznych, ich wpływu na środowisko oraz rozwój społeczno-gospodarczy kraju. Studia na kierunku Technologia Chemiczna na Wydziale Inżynierii Materiałowej i Ceramiki oraz Energetyki i Paliw przygotowują absolwentów do pracy we wszystkich branżach przemysłu chemicznego. To co wyróżnia studia na Wydziale EiP to ukierunkowanie na praktyczne pozyskiwanie, przetwarzanie, magazynowanie i użytkowanie różnych surowców i substancji chemicznych oraz eksploatacja urządzeń, w których zachodzą te procesy. Absolwenci kierunku Technologia Chemiczna są poszukiwanymi i wartościowymi pracownikami w zakładach produkcyjnych, jednostkach naukowych i badawczo-rozwojowych oraz innych obszarach nowoczesnej gospodarki.

The MSc programme "Chemical Technologies in Energy Sector" offered by the Faculty of Energy and Fuels AGH University of Science and Technology focuses on the important aspect of energy production – the application of cleaner energy systems, both where fossil and alternative fuels are concerned. Coal, though still believed to be a good medium-term solution for energy production, as it is an abundant energy resource and guarantees energy security, results in a lot of pollutants, among them CO₂, and is made responsible for the degradation of environment and climatic changes. Thus new and modern technologies in connection to traditional fuels, as well as renewable and alternative fuels are necessary. In both, chemical technologies play a special role. The program aims at educating new specialists, who not only understand, but may also apply and further develop methods using renewable fuels, such as biomass, advanced liquid fuels, or alternative fuels, e.g. GtL (gas-to-liquid) or BtL (biomass-to liquid). An important element of the program are also modern methods of energy production via gasification (of both traditional fossil fuels and biomass), fuel cells etc. Additionally, environmental protection and CO₂ mitigation processes are discussed. The specialists formed in the programme will have knowledge in chemical technologies focusing on cleaner energy production. The technical knowledge will be supplemented by courses on planning and forecasting in energy systems and energy policy, as well as those shaping innovative and business skills, such as Business Planning in Energy Sector or Leadership and Team Management. The program offers a possibility of preparing a MSc thesis either in well-known EU universities (via Erasmus+), and in cooperation with industry.

Opiekun kierunku: dr inż. Elżbieta Vogt

Zobacz pełny opis kierunku

Program ustalony Uchwałą Senatu nr 117/2019 z dnia 26 czerwca 2019 r., zmieniony Uchwałą Senatu nr 151/2020 z dnia 29 maja 2020 r., zmieniony Uchwałą Senatu nr 72/2021 z dnia 30 czerwca 2021 r.

Summer semester, 2022/2023

Course	Number of hours	ECTS credits	Form of verification
Inżynieria reaktorów chemicznych	Lectures: 15 Auditorium classes: 20 Project classes: 15	4	Exam	O
Fundamentals of biotechnology	Lectures: 14 Laboratory classes: 14 Seminars: 14	3	Completing the classes	O
Przemysłowe procesy katalityczne	Lectures: 25 Laboratory classes: 25	3	Completing the classes	O
Wybrane zagadnienia technologii materiałowych	Lectures: 30	1	Completing the classes	O
Wybrane zagadnienia technologii paliwowo-energetycznych	Lectures: 30	1	Completing the classes	O
Semester 1	Total number of contact hours: 30	18	Completing the classes	O
Zasady wyboru: Student wybiera ścieżkę dyplomowania, którą będzie kontynuował na semestrze 2
APiŚ - semester 1	Total number of contact hours: 30	18	Completing the classes	W
Zasady wyboru: Realizacja wszystkich przedmiotów z grupy w ramach ścieżki dyplomowania APiŚ
Analiza paliw	Lectures: 15 Laboratory classes: 25	3	Completing the classes	O
Nowoczesne techniki analityczne	Lectures: 15 Laboratory classes: 25	3	Exam	O
Ocena i kontrola jakości wyników analitycznych	Lectures: 15 Auditorium classes: 20	2	Completing the classes	O
Ochrona środowiska w technologii chemicznej	Lectures: 15 Laboratory classes: 15 Seminars: 15	3	Completing the classes	O
Gospodarka odpadami przemysłowymi	Project classes: 15 Seminars: 15	2	Completing the classes	O
Metody przygotowywania próbek do celów analitycznych	Lectures: 25 Laboratory classes: 25	5	Exam	O
PP - semester 1	Total number of contact hours: 30	18	Completing the classes	W
Zasady wyboru: Realizacja wszystkich przedmiotów z grupy w ramach ścieżki dyplomowania PPIiTCh
Chemical methods of waste utlization and disposal	Lectures: 15 Seminars: 15	2	Completing the classes	O
Ochrona środowiska w technologii chemicznej	Lectures: 15 Laboratory classes: 15 Seminars: 15	3	Completing the classes	O
Sorption processes engineering	Lectures: 15 Auditorium classes: 15 Project classes: 15 Seminars: 15	6	Exam	O
Technologia sorbentów nieorganicznych	Lectures: 20 Laboratory classes: 25	3	Completing the classes	O
Selected processes in chemical engineering	Lectures: 15 Laboratory classes: 25 Seminars: 15	4	Completing the classes	O
Block TChwE - semester 1	Total number of contact hours: 30	18	Completing the classes	W
Zasady wyboru: Realizacja wszystkich przedmiotów z grupy w ramach ścieżki dyplomowania TChwE
Modelling of physical and chemical processes in the energy	Lectures: 25 Auditorium classes: 15 Laboratory classes: 15 Project classes: 15	6	Exam	O
The processes of conversion of solid fuels	Lectures: 25 Laboratory classes: 15 Project classes: 30 Seminars: 15	7	Exam	O
CAD environment in the energy sector	Laboratory classes: 25 Project classes: 25	3	Completing the classes	O
Ochrona środowiska w technologii chemicznej	Lectures: 15 Laboratory classes: 15	3	Completing the classes	O
Sum	232	30

Chemical Technologies in Energy Sector

Course	Number of hours	ECTS credits	Form of verification
Elective block ET - semester 1	Total number of contact hours: 30	8	Completing the classes	W
The rules for selecting groups/modules: Students choose subjects for 8 ECTS. Industrial internship is the additional but compulsory subject for students studying in semesters 3 and 4 at the IST partner University: Instituto Superior Técnico, Portugal, not included in the sum of 8 ECTS
Energy policy	Lectures: 15 Project classes: 30	3	Completing the classes	W
Heat and mass transfer processes in energy sector	Lectures: 20 Auditorium classes: 25	3	Completing the classes	W
Industrial internship	Practical classes: 180	6	Completing the classes	W
Intellectual property rights	Lectures: 10 Project classes: 20	2	Completing the classes	W
Leadership & Team Management	Lectures: 15 Project classes: 45	5	Completing the classes	W
Mathematical modeling	Lectures: 30 Auditorium classes: 30	4	Completing the classes	W
Modern environmental analytics	Lectures: 15 Laboratory classes: 30	3	Completing the classes	W
Planning and forecasting in energy sector	Lectures: 15 Laboratory classes: 15 Project classes: 15	3	Completing the classes	W
Students Research Group	Practical classes: 45	4	Completing the classes	W
Sustainable energy development	Lectures: 15 Project classes: 30	3	Completing the classes	W
ET - semester 1	Total number of contact hours: 30	17	Completing the classes	W
The rules for selecting groups/modules: All subject of the group.
Advanced Energy Conversion and Storage	Lectures: 20 Project classes: 25	4	Exam	O
Biomass in Energy Applications	Lectures: 10 Laboratory classes: 20 Project classes: 15	3	Completing the classes	O
Chemical reactors	Lectures: 20 Auditorium classes: 25	2	Completing the classes	O
Chemistry of coal	Lectures: 15 Laboratory classes: 15	2	Completing the classes	O
Computer modelling of technological processes	Laboratory classes: 20 Discussion seminars: 10	2	Completing the classes	O
Environmental Protection in Energy Sector	Lectures: 30 Laboratory classes: 15	2	Completing the classes	O
Unconventional Hydrocarbons	Lectures: 15 Project classes: 15	2	Completing the classes	W
HS Block - sem 1	Total number of contact hours: 30	5	Completing the classes	W
The rules for selecting groups/modules: student chooses humanistic and social subjects from the department's or the University - wide offer for 5 ECTS.
Business planning in energy sector	Lectures: 15 Project classes: 30	5	Exam	W
Sum	90	30

Sustainable Fuels Economy

Course	Number of hours	ECTS credits	Form of verification
Block SFE semester 1	Total number of contact hours: 30	30	Completing the classes	W
The rules for selecting groups/modules: All subjects (courses) from group.
Chemical reactors	Lectures: 20 Auditorium classes: 25	2	Completing the classes	O
Computer modelling of technological processes	Laboratory classes: 20 Discussion seminars: 10	2	Completing the classes	O
Energy markets	Lectures: 30 Auditorium classes: 30	6	Exam	O
Energy technologies	Lectures: 15 Laboratory classes: 30	3	Completing the classes	W
Energy technologies - batteries and fuel cells	Lectures: 15 Laboratory classes: 30 Seminars: 15	5	Completing the classes	W
Environmental protection	Lectures: 15 Laboratory classes: 15 Seminars: 15	4	Completing the classes	O
Fuels and energy distribution	Lectures: 15 Laboratory classes: 15	2	Completing the classes	O
Physics of energy transformation and use	Lectures: 15 Auditorium classes: 15 Laboratory classes: 15	7	Exam	W
Sum	30	30

Winter semester, 2023/2024

Course	Number of hours	ECTS credits	Form of verification
Elective block - sem. 2	Total number of contact hours: 30	2	Completing the classes	W
Zasady wyboru: Student wybiera jeden przedmiot
Biofuels and biocomponents	Laboratory classes: 10 Discussion seminars: 10 Seminars: 10	2	Completing the classes	W
ChemCAD in chemical technology	Project classes: 30	2	Completing the classes	W
Gospodarka paliwami jądrowymi	Lectures: 15 Laboratory classes: 15	2	Completing the classes	W
Nowe chemiczne zanieczyszczenia środowiska	Lectures: 10 Laboratory classes: 20	2	Completing the classes	W
Podstawy AutoCAD dla inżynierów	Laboratory classes: 25	2	Completing the classes	W
3D computer modeling and modeling	Laboratory classes: 24	2	Completing the classes	W
High-fidelity modeling of unit operations	Laboratory classes: 30	2	Completing the classes	W
Processing of liquid carbochemical raw materials	Lectures: 20 Laboratory classes: 10	2	Completing the classes	O
Technologia wyrobów węglowych i grafitowych	Lectures: 15 Laboratory classes: 30	3	Completing the classes	W
Selected technologies tonnage	Lectures: 10 Laboratory classes: 20	2	Completing the classes	W
The chemistry of cosmetics selected aspects	Laboratory classes: 20 Discussion seminars: 10	2	Completing the classes	W
Specialist subject in a foreign language	Total number of contact hours: 30	3	Completing the classes	W
Zasady wyboru: Wybór przedmiotuspecjalistycznego prowadzonego w języku obcym za 3 ECTS z oferty wydziału lub UBPO
Catalysis in Environmental Protection	Lectures: 30 Laboratory classes: 30	3	Completing the classes	W
Organic Chemistry and Introduction to Environmental Protection	Lectures: 15 Laboratory classes: 15 Seminars: 15	3	Completing the classes	W
Overview of fuel conversion processes	Lectures: 15 Seminars: 15	3	Completing the classes	W
Subject from teh group HS - sem 2	Total number of contact hours: 30	1	Completing the classes	W
Zasady wyboru: Realizacja przedmiotów z grupy HS na sumę 5 ECTS w semestrach 2 i 3 z oferty wydziału lub UBPO
Prepare for the labour market	Lectures: 6 Workshop classes: 3	1	Completing the classes	W
Semester 2	Total number of contact hours: 30	22	Completing the classes	W
Zasady wyboru: Kontynuacja ścieżki dyplomowania
APiS - semester 2	Total number of contact hours: 0	22	Completing the classes	W
Zasady wyboru: Realizacja wszystkich przedmiotów w ramach ścieżki dyplomowania APiŚ
Analityka radiochemiczna	Lectures: 15 Auditorium classes: 15 Laboratory classes: 30	5	Completing the classes	O
Analityka środowiskowa	Lectures: 15 Laboratory classes: 30	4	Exam	O
Modelowanie procesów technologicznych	Lectures: 15 Project classes: 15	2	Completing the classes	O
Pomiary przemysłowe	Lectures: 15 Laboratory classes: 45	5	Completing the classes	O
Techniki separacyjne-metody chromatografii	Lectures: 15 Laboratory classes: 30	4	Exam	O
Zarządzanie jakością w produkcji i laboratoriach badawczych	Lectures: 15 Seminars: 30	2	Completing the classes	O
PP - semester 2	Total number of contact hours: 0	22	Completing the classes	W
Zasady wyboru: Realizacja wszystkich przedmiotów w ramach ścieżki dyplomowania PPIiTCh
Physico-chemical properties of fossil coals	Lectures: 20 Laboratory classes: 25	3	Completing the classes	O
Radiochemical methods in environmental measurements	Lectures: 10 Laboratory classes: 30	3	Completing the classes	O
Modelowanie procesów technologicznych	Lectures: 15 Project classes: 15	2	Completing the classes	O
Designing gas cleaning processes	Lectures: 15 Project classes: 15 Seminars: 15	3	Completing the classes	O
Technologia oczyszczania wód	Lectures: 15 Laboratory classes: 15 Seminars: 15	4	Exam	O
Technologia sorbentów organicznych	Lectures: 30 Laboratory classes: 30	4	Completing the classes	O
Application of adsorbents	Lectures: 15 Seminars: 15	3	Exam	O
TChwE - semester 2	Total number of contact hours: 0	22	Completing the classes	W
Zasady wyboru: Realizacja wszystkich przedmioty w racha ścieżi dyplomowania TChwE
Engineering coal conversion processes	Lectures: 25 Project classes: 15 Seminars: 30	4	Exam	O
Fluidization and systems of gas-solid	Lectures: 30 Project classes: 30	4	Exam	O
Treatment of flue gases in power sector	Lectures: 15 Laboratory classes: 15	2	Completing the classes	W
Chemical processes in energy technologies	Lectures: 25 Laboratory classes: 15 Project classes: 15 Seminars: 15	5	Exam	O
Wastewater treatment technologies	Lectures: 25 Laboratory classes: 30	3	Completing the classes	O
Principles of conducting research experiments	Lectures: 15 Laboratory classes: 30 Project classes: 15	4	Completing the classes	W
Foreign language (JO2)	Total number of contact hours: 30	2	Completing the classes	W
Zasady wyboru: Jeden przedmiot z grupy
English B2 + - a compulsory specialist language course at second-cycle studies for students of the Faculty of Energy and Fuels	Foreign language classes: 30	2	Exam	O
French B2+ course - compulsory course for students of SECOND-CYCLE STUDIES	Foreign language classes: 30	2	Exam	O
Spanish B2 + - a compulsory specialist language course in second-cycle studies for students of the Faculty of Energy and Fuels	Foreign language classes: 30	2	Exam	O
German B2 + - a compulsory specialist language course in second-cycle studies for students of the Faculty of Energy and Fuels	Foreign language classes: 30	2	Exam	O
Russian B2+ - compulsory specialized language course at the second level studies for students of the Faculty of Energy and Fuels	Auditorium classes: 30	2	Exam	O
Sum	150	30

Chemical Technologies in Energy Sector

Course	Number of hours	ECTS credits	Form of verification
Elective block ET - semester 2	Total number of contact hours: 60	9	Completing the classes	W
The rules for selecting groups/modules: students choose subjects for 9 ECTS.
Ceramic materials for energy industry	Lectures: 30 Laboratory classes: 15	3	Completing the classes	W
CFD Modeling with ANSYS Fluent	Lectures: 15 Laboratory classes: 30	3	Completing the classes	W
Circular Economy	Lectures: 15 Auditorium classes: 15	3	Completing the classes	W
Eco-Innovation in Industry	Discussion seminars: 30	5	Completing the classes	W
Fuel cells and hydrogen production	Lectures: 15 Laboratory classes: 30	3	Completing the classes	W
Integrated Energy Resource Planning	Lectures: 15 Laboratory classes: 15 Project classes: 30	5	Completing the classes	W
Low emission combustion	Lectures: 15 Auditorium classes: 15 Laboratory classes: 15	3	Completing the classes	W
Radioactive elements in energy industry and soil pollution control	Lectures: 15 Laboratory classes: 20 Seminars: 10	3	Completing the classes	W
Smart heating grids	Lectures: 15 Project classes: 15	3	Completing the classes	W
ET - semester 2	Total number of contact hours: 30	21	Completing the classes	W
The rules for selecting groups/modules: All subject of the group.
Advanced liquid biofuels	Lectures: 10 Laboratory classes: 20 Project classes: 15	3	Completing the classes	O
Biotechnology	Lectures: 15 Laboratory classes: 15	2	Completing the classes	O
Carbon dioxide mitigation technologies	Lectures: 15 Seminars: 15	2	Completing the classes	O
Catalysis in fuel industry and air pollution control	Lectures: 30 Laboratory classes: 30	4	Exam	O
Fluidization and Solid-Gas Systems	Lectures: 30 Project classes: 15	3	Completing the classes	O
Gasification	Lectures: 30 Project classes: 30	4	Exam	O
Renewable Energy	Lectures: 15 Laboratory classes: 30	3	Completing the classes	O
Sum	90	30

Sustainable Fuels Economy

Course	Number of hours	ECTS credits	Form of verification
Block SFE semester 2	Total number of contact hours: 30	25	Completing the classes	W
The rules for selecting groups/modules: All subjects (courses) from group.
Biotechnology	Lectures: 15 Laboratory classes: 15	2	Completing the classes	O
Energy and Environment	Lectures: 15 Seminars: 15	2	Completing the classes	W
Energy policy	Lectures: 15 Auditorium classes: 15 Seminars: 15	5	Exam	W
Fuels Chemistry	Lectures: 15 Laboratory classes: 15	3	Completing the classes	O
Introduction to systems modelling	Lectures: 30 Auditorium classes: 15 Project classes: 15	7	Exam	O
Modelling of fuels and energy systems	Lectures: 15 Laboratory classes: 15 Project classes: 15	4	Completing the classes	O
Prospects of the fuels and energy economy	Lectures: 15 Seminars: 15	2	Completing the classes	W
HS block - sem 2	Total number of contact hours: 30	5	Completing the classes	W
The rules for selecting groups/modules: All subjects (courses) from group. Student chooses humanistic and social subjects from the department's or the University - wide offer for 5 ECTS.
Business planning in energy sector	Lectures: 15 Project classes: 30	5	Exam	W
Sum	60	30

Summer semester, 2023/2024

Course	Number of hours	ECTS credits	Form of verification
Diploma Thesis	Diploma Thesis: 0	20	Completing the classes	O
Subject from group HS - sem 3	Total number of contact hours: 30	4	Completing the classes	O
Zasady wyboru: Realizacja przedmiotów z grupy HS na sumę 5 ECTS w semestrach 2 i 3 z oferty wydziału lub UBPO
Management in the fuel and energy sectors	Lectures: 15 Project classes: 15	4	Completing the classes	W
semester 3	Total number of contact hours: 30	6	Completing the classes	O
Zasady wyboru: Obowiązkowa realizacja praktyki i seminarium dyplomowego. Możliwość rozliczenia działalności w Kole naukowym.
Student Reseach Group	Participation in a student research club: 0	2	Completing the classes	W
Zasady wyboru: Student ma możliwość uzyskania dodatkowo 2 ECTS za działalność w Kole naukowym
Students Research Group	Participation in a student research club: 0	2	Completing the classes	W
Thesis-internship programme	Thesis-internship programme: 0	4	Completing the classes	O
Diploma Seminar	Seminars: 25	2	Completing the classes	O
Sum	60	30

Chemical Technologies in Energy Sector

Course	Number of hours	ECTS credits	Form of verification
ET - semester 3	Total number of contact hours: 30	30	Completing the classes	W
The rules for selecting groups/modules: The student participating in the KIC InnoEnergy program is studying in semesters 3 and 4 at the IST partner university: Instituto Superior Técnico, Portugal/ All subject of the group for the student not participating in the KIC InnoEnergy program.
Diploma Seminar	Seminars: 30	10	Completing the classes	O
Diploma Thesis	Diploma Thesis: 0	20	Completing the classes	O
Sum	30	30

Sustainable Fuels Economy

Course	Number of hours	ECTS credits	Form of verification
Diploma Thesis	Diploma Thesis: 0	20	Completing the classes	O
Block SFE semester 3	Total number of contact hours: 30	10	Completing the classes	W
The rules for selecting groups/modules: All subjects (courses) from group.
Diploma Seminar	Control and transitional thesis: 30	2	Completing the classes	O
MSc practice	Thesis-internship programme: 0	8	Completing the classes	O
Sum	30	30