Production of large amounts of hydrogen from RES, the use of lossless transmission of electricity via superconducting cables, with high current densities; cooled by liquid or solidified nitrogen via its cooling with liquid hydrogen or helium or hydrogen vapors is a solution for low-loss electricity transport at the GW energy level.
Education:
He graduated from the Nuclear Technical School in Otwock in 1970.
In 1978 he graduated from the Warsaw University of Technology in Electronics, Faculty of Materials Technology, specialization in Electronic Materials.
In 2004 he defended his doctorate at the Faculty of Ceramics of the AGH University of Science and Technology.
Professional experience:
He has been working at IWC PAN since 1978 to today: 2023. Initially, as a technologist of electronic and ceramic materials. Synthesis and crystallization of high-pressure superconductors, including high-pressure chamber designs. Head of the NL-6 Superconductor Laboratory at IWC PAS from its inception in 1984 to the present day. Manager of several foreign and domestic grants in the field of superconductor techniques and technologies.
Production and production of MgB2 wires on a laboratory and semi-industrial scale, managing the Polish part of the European project HIPERMAG ID: 505724 (FP6-NMP) entitled “Nano- and microscale engineering of higher-performance MgB2 composite superconductors for macro-scale applications“,
Managing the project N N510 278738 Ministry of Science and Higher Education entitled “A new method for the production of high-current superconducting cables MgB2 with Cu/ex/in situ MgB2 structure, from nanomaterials, using SHS, MA and HIP technologies“,
Optimization of electrical and manufacturing parameters for production”
MgB2 Cable Patent: Case No: Glo-1873-07
Patents
- Title: Composite Electrical Conductors and Method for Their Manufacture
Inventors: Dr Andrzej Morawski and Dr Bartek Głowacki
Be: 10 April 2007
Filing No: GB 0706919.8
Country: Great Britain
(2)
Title: Composite Electrical Conductors and Method for Their Manufacture
Inventors: Dr Andrzej Morawski and Dr Bartek Głowacki
Filing Date: 10 April 2007
Filing No: 60/907590
Country: USA
The most important scientific publications on: MgB2
- H Jie, W Qiu, M Billah, M Mustapic, D Patel, Z Ma, D Gajda, A Morawski, T Cetner, M Shahabuddin, E Yanmaz, M Rindfleisch, J H Kim, M S A Hossain “Superior transport Jc obtained in in-situ MgB2 wires by tailoring the starting materials and using a combined cold high pressure densification and hot isostatic pressure treatment” Scripta Materialia 129 79 (2017)
- Gajda, A. Morawski, A. Zaleski, M.S.A. Hossain, M. Rindfleisch, T. Cetner, “Experimental research on electric field jump in low magnetic fields: Detection of damage in new ex-situ MgB2 barriers in MgB2 wires” Journal of Alloys and Compounds 647 303-309 (2015)
- D Gajda, A Morawski, A Zaleski, T Cetner, M Małecka, A Presz, M Rindfleisch, M Tomsic, C J Thong and P Surdacki “Comparison of critical current density in SiC-doped in situ MgB2 coils and straight wire samples processed by HIP” Supercond. Sci. Technol. 26 115002 2013
- A Kario, A Morawski, W Haessler, M Herrmann, C Rodig, M Schubert, K Nenkov, B Holzapfel, L Schultz, B A Glowacki, S C Hopkins, “Novel ex situ MgB2 barrier for in situ monofilamentary MgB2 conductors with Fe and Cu sheath material”, Supercond. Sci. Technol. 23, 025018 (2010).
- “Crystals of Hg superconductors” KARPINSKI, J; SCHWER, H; MANGELSCHOTS, I; CONDER, K; MORAWSKI, A; LADA, T; PASZEWIN, A NATURE 371 6499 661-661- 1994
Role in the current project
In the project, he supervises the part of the project concerning the preparation of the input material of the wire core and then the cable, HIP processes continuous conductor of the target cable with MgB2. Project Manager PROSUPREX NCBR (2019-2023)