Cycle of education: 2022/2023
The name of the faculty organization unit: The faculty Chemistry
The name of the field of study: Hydrogen technologies
The area of study: technical sciences
The profile of studing:
The level of study: second degree study
Type of study: past time
discipline specialities :
The degree after graduating from university: Master of Science (MSc)
The name of the module department : Department of Chemical Engineering and Process Control
The code of the module: 16579
The module status: mandatory for teaching programme
The position in the studies teaching programme: sem: 1 / W18 C9 L18 / 5 ECTS / E
The language of the lecture: Polish
The name of the coordinator: Wojciech Zapała, DSc, PhD, Eng.
The main aim of study: To familiarize students with the basic processes of hydrogen evolution and separation.
The general information about the module: The course will be conducted in Polish during the 2st semester in the following dimensions: 18 hours of lecture, 9 hours of exercises, 18 hours of laboratory. The course ends with an exam.
1 | R. Koch, A. Kozioł | Dyfuzyjno – cieplny rozdział substancji | WNT W-wa. | 1994 |
2 | R. Petrus, G. Aksielrud, J. Gumnicki, W. Piątkowski | Wymiana masy ciało stałe – ciecz | OW PRz. | 1998 |
3 | R. Rautenbach | Procesy membranowe | WNT. | 1996 |
4 | T. Chmielniak, T. Chmielniak | Energetyka wodorowa | PWN Warszawa. | 2020 |
1 | K. Pawłow, P. Romankow, A.Noskow | Przykłady i zadania z zakresu aparatury i inżynierii chemicznej | WNT. | 1981 |
2 | W. Ciesielczyk, K. Kupiec | Obliczenia w inżynierii chemicznej cz. IV. Obliczanie procesów przenoszenia masy. | Politechnika Krakowska. | 2014 |
3 | W. Ciesielczyk, K. Kupiec | Obliczenia w inżynierii chemicznej cz. III, Teoria procesów przenoszenia masy. | Politechnika Krakowska. | 2014 |
Formal requirements: Registration for a given semester.
Basic requirements in category knowledge: The student has ordered knowledge of mathematics, physics, chemistry, covering all issues related to the application of scientific methods in the type of engineering issues.
Basic requirements in category skills: He has ordered, basic knowledge in computer science that allows for efficient handling of basic utility programs such as Matlab, Origin, Excel, etc.
Basic requirements in category social competences: It has a sense of responsibility related to the performance of the engineering profession.
MEK | The student who completed the module | Types of classes / teaching methods leading to achieving a given outcome of teaching | Methods of verifying every mentioned outcome of teaching | Relationships with KEK | Relationships with PRK |
---|---|---|---|---|---|
01 | Has knowledge of the theory and design of advanced unit operations in chemical engineering. | lecture | exam part written |
K_W04+ K_U02+ K_U05+ K_K02+ K_K03+ |
P7S_KO P7S_KR P7S_UW P7S_WG |
02 | Has the knowledge and ability to solve mathematical problems related to the design of basic unit operations of chemical engineering. | solving classes | Final test |
K_W07+ K_U01+ K_U02+ K_U07+ |
P7S_UW P7S_WG |
03 | Has the ability to service and identify the chemical apparatus | laboratory | Evaluation performed exercises and possibly theoretical test |
K_U04+ K_U11+ |
P7S_UO P7S_UU P7S_UW |
Attention: Depending on the epidemic situation, verification of the achieved learning outcomes specified in the study program, in particular credits and examinations at the end of specific classes, can be implemented remotely (real-time meetings).
Sem. | TK | The content | realized in | MEK |
---|---|---|---|---|
1 | TK01 | W30, C15, L30 | MEK01 MEK02 MEK03 |
The type of classes | The work before classes | The participation in classes | The work after classes |
---|---|---|---|
Lecture (sem. 1) | The preparation for a test:
5.00 hours/sem. |
contact hours:
18.00 hours/sem. |
complementing/reading through notes:
25.00 hours/sem. Studying the recommended bibliography: 15.00 hours/sem. |
Class (sem. 1) | The preparation for a Class:
5.00 hours/sem. The preparation for a test: 10.00 hours/sem. |
contact hours:
9.00 hours/sem. |
Finishing/Studying tasks:
2.00 hours/sem. |
Laboratory (sem. 1) | The preparation for a Laboratory:
3.00 hours/sem. The preparation for a test: 2.00 hours/sem. |
contact hours:
18.00 hours/sem. |
|
Advice (sem. 1) | |||
Exam (sem. 1) | The preparation for an Exam:
15.00 hours/sem. |
The written exam:
2.00 hours/sem. |
The type of classes | The way of giving the final grade |
---|---|
Lecture | Lecture: Completion of the course based on an evaluation of the exam - OW |
Class | Ćwiczenia: zaliczenie na podstawie oceny z kolokwium - OC |
Laboratory | Laboratory: on the basis of the performed exercises and reports - OL |
The final grade | Score: OK = 60%OW+30%OC+10%OL. First term: w=1, second term: w=0,9, third term: w=0,8. |
Required during the exam/when receiving the credit
(-)
Realized during classes/laboratories/projects
(-)
Others
(-)
Can a student use any teaching aids during the exam/when receiving the credit : no
1 | M. Przywara; R. Przywara; W. Zapała | Numerical Investigation on Flowability of Pulverized Biomass Using the Swelling Bed Model | 2024 |
2 | A. Bukowska; T. Galek; M. Przywara; R. Przywara; W. Zapała | Brief Analysis of Selected Sorption and Physicochemical Properties of Three Different Silica-Based Adsorbents | 2023 |
3 | I. Opaliński; M. Przywara; R. Przywara; W. Zapała | Mechanical Properties of Solid Biomass as Affected by Moisture Content | 2023 |
4 | M. Chutkowski; I. Opaliński; M. Przywara; R. Przywara; W. Zapała | Influence of Moisture Content and Composition of Agricultural Waste with Hard Coal Mixtures on Mechanical and Rheological Properties | 2023 |
5 | M. Przywara; R. Przywara; W. Zapała | Właściwości adsorpcyjne wybranych polarnych faz stacjonarnych | 2023 |
6 | Ł. Byczyński; M. Kosińska-Pezda; E. Woźnicka; L. Zapała; W. Zapała | Synteza oraz badania składu i właściwości związków: 3-hydroksyflawonu, chryzyny oraz sulfonowych pochodnych chryzyny i kwercetyny z jonami Mn(II) | 2023 |
7 | L. Zapała; W. Zapała; P. Ziobrowski | Studies on the retention behavior of quercetin, phenol and caffeine as test substances on selected neutral and charged Hydrophilic Interaction Liquid Chromatography stationary phases | 2022 |
8 | M. Chutkowski; J. Kamińska; M. Przywara; W. Zapała; P. Ziobrowski | Studies on the Effects of Process Conditions on Separation of B1, B2 and B3 Vitamin Mixture Using HILIC and RPLC Chromatography | 2022 |
9 | M. Chutkowski; M. Przywara; R. Przywara; W. Zapała | Column Testing in Quantitative Determination of Raw Heparin in Porcine Intestinal Mucus Extracts by Liquid Chromatography – Preliminary Investigations | 2022 |
10 | M. Kosińska-Pezda; U. Maciołek; E. Woźnicka; L. Zapała; W. Zapała | Synteza, badania składu i właściwości spektroskopowych kompleksów wybranych jonów metali przejściowych z kwasem niflumowym | 2022 |
11 | W. Zapała; P. Ziobrowski | Analiza mechanizmu retencji kofeiny, kwercetyny oraz fenolu w wybranych układach chromatografii oddziaływań hydrofilowych (HILIC) | 2022 |
12 | M. Chutkowski; L. Zapała; W. Zapała; P. Ziobrowski | Analiza mechanizmu retencji kwercetyny w wybranych układach chromatografii oddziaływań hydrofilowych (HILIC) | 2021 |
13 | M. Chutkowski; M. Kosińska-Pezda; M. Przywara; L. Zapała; W. Zapała; P. Ziobrowski | Analysis of adsorption energy distribution in selected hydrophilic-interaction chromatography systems with amide, amine, and zwitterionic stationary phases | 2021 |
14 | Ł. Byczyński; E. Ciszkowicz; M. Kosińska-Pezda; K. Lecka-Szlachta; U. Maciołek; E. Woźnicka; L. Zapała; W. Zapała | Green synthesis of niflumic acid complexes with some transition metal ions (Mn(II), Fe(III), Co(II), Ni(II), Cu(II) and Zn(II)). Spectroscopic, thermoanalytical and antibacterial studies | 2021 |
15 | Ł. Byczyński; M. Kosińska-Pezda; U. Maciołek; E. Woźnicka; L. Zapała; W. Zapała | Thermal study, temperature diffraction patterns and evolved gas analysis during pyrolysis and oxidative decomposition of novel ternary complexes of light lanthanides with mefenamic acid and 1,10-phenanthroline | 2021 |
16 | M. Chutkowski; L. Zapała; W. Zapała; P. Ziobrowski | Influence of Mobile Phase Composition and Temperature on the Retention Behavior of Selected Test Substances in Diol-type Column | 2020 |
17 | M. Chutkowski; M. Przywara; W. Zapała | Modelowanie i analiza płynięcia materiału rozdrobionego podczas ścinania w reometrze pierścieniowym z wykorzystaniem metody elementów dyskretnych | 2020 |
18 | M. Kosińska; E. Woźnicka; L. Zapała; W. Zapała | Response of the DFT study to the calculations of selected microdissociation constants of anthranilic acid and its derivatives | 2019 |
19 | Ł. Byczyński; M. Chutkowski; E. Ciszkowicz; M. Kosińska; K. Lecka-Szlachta; E. Woźnicka; L. Zapała; W. Zapała | Comparison of spectral and thermal properties and antibacterial activity of new binary and ternary complexes of Sm(III), Eu(III) and Gd (III) ions with N-phenylanthranilic acid and 1,10-phenanthroline | 2019 |