Item card
Hydrogen storage in solids
Some basic information about the module
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 Material Science
The code of the module: 16573
The module status: mandatory for teaching programme
The position in the studies teaching programme: sem: 1 / W9 L9 / 2 ECTS / Z
The language of the lecture: Polish
The name of the coordinator: Marcin Drajewicz, DSc, PhD, Eng.
The aim of studying and bibliography
The main aim of study:
The general information about the module:
Bibliography required to complete the module
| 1 | Blicharski M. | Wstęp do inżynierii materiałowej | WNT, Warszawa. | 2003 |
| 2 | Ashby M.F., Jones D.R.H. | Materiały inżynierskie - tom 1 i 2 | WNT Warszawa . | 1995 |
| 1 | J. Walkowiak-Kulikowska, J. Wolska, H. Koroniak | Polymers application in proton exchange membranes for fuel cells (PEMFCs) | Physical Sciences Reviews. | 2017 |
| 2 | P. Brimblecombe | Air Composition and Chemistry | Cambridge University Press. | 1986 |
Basic requirements in category knowledge/skills/social competences
Formal requirements:
Basic requirements in category knowledge:
Basic requirements in category skills:
Basic requirements in category social competences:
Module outcomes
| 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 |
K_W03+ K_W07+ K_U08+ K_K02+ K_K03+ |
P7S_KO P7S_KR P7S_UW P7S_WG |
|||
| 02 |
K_U04+ K_U05+ K_U07+ K_U08+ K_K02+ K_K03+ |
P7S_KO P7S_KR 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).
The syllabus of the module
| Sem. | TK | The content | realized in | MEK |
|---|---|---|---|---|
| 1 | TK01 | - |
W01, W02 | MEK01 |
| 1 | TK02 | - |
W03, W04 | MEK01 |
| 1 | TK03 | - |
W05 | MEK01 |
| 1 | TK04 | - |
W06 | MEK01 |
| 1 | TK05 | - |
W07,W08 | MEK01 |
| 1 | TK06 | - |
L01, L02 | MEK02 |
| 1 | TK07 | - |
L03, L04 | MEK02 |
| 1 | TK08 | - |
L05, L06, L07 | MEK02 |
The student's effort
| The type of classes | The work before classes | The participation in classes | The work after classes |
|---|---|---|---|
| Lecture (sem. 1) | The preparation for a test:
2.00 hours/sem. |
contact hours:
9.00 hours/sem. |
complementing/reading through notes:
2.00 hours/sem. Studying the recommended bibliography: 10.00 hours/sem. Others: 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. Others: 2.00 hours/sem. |
contact hours:
9.00 hours/sem. |
Finishing/Making the report:
1.00 hours/sem. |
| Advice (sem. 1) | The preparation for Advice:
1.00 hours/sem. |
The participation in Advice:
1.00 hours/sem. |
|
| Credit (sem. 1) | The preparation for a Credit:
3.00 hours/sem. |
The written credit:
1.00 hours/sem. The oral credit: 1.00 hours/sem. Others: 1.00 hours/sem. |
The way of giving the component module grades and the final grade
| The type of classes | The way of giving the final grade |
|---|---|
| Lecture | |
| Laboratory | |
| The final grade |
Sample problems
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
The contents of the module are associated with the research profile: yes
| 1 | K. Bester; A. Bukowska; W. Bukowski; M. Drajewicz; K. Dychtoń; R. Ostatek; P. Szałański | Sposób wytwarzania salofenowego kompleksu chromu(III) | 2024 |
| 2 | M. Drajewicz; K. Dychtoń; K. Gancarczyk; M. Góral; A. Gradzik; J. Jopek; B. Kościelniak; T. Kubaszek; M. Mokrzycka; M. Poręba; A. Przybyło; M. Pytel | The Influence of Plasma Nitriding Process Conditions on the Microstructure of Coatings Obtained on the Substrate of Selected Tool Steels | 2024 |
| 3 | M. Drajewicz; M. Góral; J. Jopek; B. Kościelniak; T. Kubaszek; K. Ochał | The Structure of Boride Diffusion Coatings Produced on Selected Grades of Structural Steels | 2024 |
| 4 | M. Drajewicz; W. Głuchowski; M. Góral; P. Kwaśniewski; M. Mokrzycka; A. Przybyło | The influence of plasma nitriding on the microstructure of X153CrMoV12 and X165CrV12 steels | 2024 |
| 5 | B. Adamczyk-Cieślak; M. Drajewicz; P. Maj; J. Mizera; R. Sitek; P. Wiśniewski | Impact of an Aluminization Process on the Microstructure and Texture of Samples of Haynes 282 Nickel Alloy Produced Using the Direct Metal Laser Sintering (DMLS) Technique | 2023 |
| 6 | K. Bester; A. Bukowska; W. Bukowski; M. Drajewicz; K. Dychtoń; R. Ostatek; P. Szałański | Ligand salphenowy oraz sposób syntezy tego ligandu salphenowego | 2023 |
| 7 | M. Drajewicz; K. Dychtoń; K. Gancarczyk; W. Gluchowski; M. Góral; A. Gradzik; J. Jopek; B. Kościelniak; T. Kubaszek; P. Kwasniewski; M. Mokrzycka; K. Ochał | The Influence of Industrial-Scale Pack-Boroding Process Time on Thickness and Phase Composition of Selected Cold-Work Tool Steels | 2023 |
| 8 | M. Drajewicz; K. Gancarczyk; M. Góral; T. Kubaszek; A. Słyś; D. Szczęch | The influence of HV-APS process parameters on microstructure and erosion resistance of metalloceramic WC-CrC-Ni coatings | 2023 |
| 9 | M. Drajewicz; M. Góral; J. Jopek; B. Kościelniak; M. Mokrzycka; K. Ochał | High Temperature Protective Coatings for Aeroengine Applications | 2023 |
| 10 | M. Drajewicz; M. Góral; W. Graboń; K. Grochalski; T. Kubaszek | The Concept of WC-CrC-Ni Plasma-Sprayed Coating with the Addition of YSZ Nanopowder for Cylinder Liner Applications | 2023 |
| 11 | M. Drajewicz; W. Głuchowski; D. Kołacz; K. Krukowski; M. Łagoda; M. Maleta; Z. Rdzawski | The effect of the rolling process on selected properties of magnesium copper with microadditives | 2023 |
| 12 | P. Cichosz; M. Drajewicz; M. Góral; A. Majka; W. Nowak; J. Sęp; R. Smusz | Design of Newly Developed Burner Rig Operating with Hydrogen Rich Fuel Dedicated for Materials Testing | 2023 |
| 13 | M. Drajewicz; K. Dychtoń; M. Góral; T. Kubaszek; K. Ochał; P. Rokicki; M. Wierzbińska | The microstructure and thermal properties of Yb2SiO5 coating deposited using APS and PS-PVD methods | 2022 |
| 14 | M. Drajewicz; K. Dychtoń; M. Góral; T. Kubaszek; P. Pędrak; M. Wierzbińska | The Influence of Reactive PS-PVD Process Parameters on the Microstructure and Thermal Properties of Yb2Zr2O7 Thermal Barrier Coating | 2022 |
| 15 | M. Drajewicz; K. Dychtoń; W. Gluchowski; M. Góral; A. Gurak; J. Jopek; A. Kawecki; B. Kościelniak; T. Kubaszek; P. Kwasniewski; M. Lagoda; K. Ochał; A. Przybyło; M. Woźniak | The Diffusion Coatings for Industrial Tool Application | 2022 |
| 16 | M. Drajewicz; M. Góral; M. Poręba; M. Pytel; W. Ziaja | Modification of the Cu-ETP copper surface layer with chromium by physical vapor deposition (PvD) and diffusion annealing | 2022 |
| 17 | M. Drajewicz; M. Góral; T. Kubaszek; A. Słyś; P. Zgódka | The influence of selected plasma spraying parameters on microstructure and porosity of molybdenum coating | 2022 |
| 18 | M. Drajewicz; M. Góral; T. Kubaszek; K. Ochał; M. Poręba | Structure and thickness of Y2O3 coatings deposited by plasma spray physical vapour deposition (PS-PvD) method on graphite | 2022 |
| 19 | W. Cmela; M. Drajewicz; M. Góral; T. Kubaszek; P. Pędrak | The Formation of Two-Layer YSZ Ceramic Coatings Produced in Single Step PS-PVD Process | 2022 |
| 20 | A. Baran; M. Drajewicz; A. Dryzner; M. Dubiel; Ł. Florczak; M. Kocój-Toporowska; A. Krząkała; K. Kwolek; P. Kwolek; G. Lach; G. Nawrat; Ł. Nieużyła; K. Raga; J. Sieniawski; A. Sobkowiak; T. Wieczorek | Method of Forming Corrosion Resistant Coating and Related Apparatus | 2021 |
| 21 | B. Chmiela; M. Drajewicz; B. Kościelniak; M. Sozańska; R. Swadźba | Oxidation Behavior of Inconel 740H Nickel Superalloy in Steam Atmosphere at 750 °C | 2021 |
| 22 | M. Drajewicz; D. Dziadosz; M. Góral; B. Kościelniak; T. Kubaszek | The Isothermal Oxidation of MCrAlY Protective Coatings | 2021 |
| 23 | M. Drajewicz; K. Dychtoń; M. Góral; P. Pędrak | Synthesis of Gd2Zr2O7 Coatings Using the Novel Reactive PS-PVD Process | 2021 |
| 24 | M. Drajewicz; K. Gancarczyk; M. Góral; B. Kościelniak; T. Kubaszek; M. Poręba | The Formation of Columnar YSZ Ceramic Layer on Graphite by PS-PVD Method for Metallurgical Applications | 2021 |
| 25 | M. Drajewicz; M. Gajewski; M. Góral; B. Kościelniak; T. Kubaszek | Microstructure and Oxidation Resistance of Thermal Barrier Coatings with Different Ceramic Layer | 2021 |
| 26 | M. Drajewicz; M. Góral; B. Kościelniak; T. Kubaszek; K. Ochał; M. Pytel; P. Wierzba; R. Wojtynek | The Influence of Process Parameters on Structure and Phase Composition of Boride Coatings Obtained on X39CrMo17-1 Stainless Steel | 2021 |
| 27 | M. Drajewicz; M. Góral; M. Kobylarz; T. Kubaszek; M. Pytel | Thermal Barrier Coating Deposited Using the PS-PVD Method on TiAl-Nb-Mo Intermetallic Alloy with Different Types of Bond Coats | 2021 |
| 28 | M. Drajewicz; M. Góral; T. Kubaszek; P. Pędrak; M. Pytel | The Influence of Process Parameters on Structure of YSZ Coating Deposited by Plasma Spraying on AISI 316L Stainless Steel Surface by APS Method and on Ti6Al4V Titanium Alloy Surface by PS-PVD Method | 2021 |
| 29 | M. Drajewicz; M. Góral; T. Kubaszek; Ł. Nieużyła; K. Ochał; M. Pytel; W. Simka | Microstructure of Aluminide Coatings Modified by Pt, Pd, Zr and Hf Formed in Low-Activity CVD Process | 2021 |
| 30 | M. Drajewicz; M. Góral; T. Kubaszek; Ł. Nieużyła; M. Pytel; W. Simka | The new concept of thermal barrier coatings with Pt + Pd/Zr/Hf-modified aluminide bond coat and ceramic layer formed by PS-PVD method | 2021 |
| 31 | P. Borowski; M. Drajewicz; M. Góral; T. Kubaszek | Thermal Barrier Coatings for Molybdenum Produced Using Nanopowders | 2021 |
| 32 | P. Cichosz; M. Drajewicz; M. Góral; B. Kościelniak; T. Kubaszek; M. Pytel; P. Wierzba | The Duplex Coating Formation Using Plasma Nitriding and CrN PVD Deposition on X39CrMo17-1 Stainless Steel | 2021 |
| 33 | K. Adrjanowicz; M. Drajewicz; K. Dychtoń; Ł. Kolek; P. Kula; M. Massalska-Arodź; T. Rozwadowski | Molecular dynamics and cold crystallization process in a liquid-crystalline substance with para-, ferro- and antiferro-electric phases as studied by dielectric spectroscopy and scanning calorimetry | 2020 |
| 34 | M. Drajewicz; M. Góral; T. Kubaszek; K. Ochał | The influence of deposition technique of aluminide coatings on oxidation resistance of different nickel superalloys | 2020 |
| 35 | M. Drajewicz; K. Dychtoń; M. Pytel | The new idea for modification of the surface area of silicate glass | 2019 |