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Lukasz Szablowski
Lukasz Szablowski
Warsaw University of Technology, Institute of Heat Engineering, Power Division
在 itc.pw.edu.pl 的电子邮件经过验证
标题
引用次数
引用次数
年份
Comparative thermodynamic analysis of compressed air and liquid air energy storage systems
P Krawczyk, Ł Szabłowski, S Karellas, E Kakaras, K Badyda
Energy 142, 46-54, 2018
1472018
Energy and exergy analysis of adiabatic compressed air energy storage system
L Szablowski, P Krawczyk, K Badyda, S Karellas, E Kakaras, W Bujalski
Energy 138, 12-18, 2017
1372017
Dynamic model of solar heating plant with seasonal thermal energy storage
K Kubiński, Ł Szabłowski
Renewable Energy 145, 2025-2033, 2020
472020
Control strategy for an internal combustion engine fuelled by natural gas operating in distributed generation
J Milewski, Ł Szabłowski, J Kuta
Energy Procedia 14, 1478-1483, 2012
412012
Compressed Air Energy Storage Systems
J Milewski, K Badyda, Ł Szabłowski
Journal of Power Technologies 96 (4), 245-260, 2016
352016
Impact of selected parameters on performance of the Adiabatic Liquid Air Energy Storage system
P Krawczyk, Ł Szabłowski, K Badyda, S Karellas, E Kakaras
Journal of Power Technologies 96 (4), 238-244, 2016
272016
Dynamic analysis of compressed air energy storage in the car
L Szablowski, J Milewski
Journal of Power Technologies 91 (1), 23, 2011
262011
Manufacturing of γ-LiAlO2 matrix for molten carbonate fuel cell by high-energy milling
R Baron, T Wejrzanowski, J Milewski, Ł Szabłowski, A Szczęśniak, ...
International Journal of Hydrogen Energy 43 (13), 6696-6700, 2018
242018
ANN–supported control strategy for a solid oxide fuel cell working on demand for a public utility building
Ł Szabłowski, J Milewski, K Badyda, J Kupecki
International Journal of Hydrogen Energy 43 (6), 3555-3565, 2018
232018
A proton conducting solid oxide fuel cell---implementation of the reduced order model in available software and verification based on experimental data
J Milewski, A Szczęśniak, Ł Szabłowski
Journal of Power Sources 502, 229948, 2021
222021
Exergy Analysis of Adiabatic Liquid Air Energy Storage (A-LAES) System Based on Linde–Hampson Cycle
L Szablowski, P Krawczyk, M Wolowicz
Energies 14 (4), 945, 2021
212021
Study of the degradation of a fine-grained YSZ–NiO anode material during reduction in hydrogen and reoxidation in air
B Vasyliv, J Milewski, V Podhurska, T Wejrzanowski, V Kulyk, J Skibiński, ...
Applied Nanoscience 12 (4), 965-975, 2022
202022
Dynamic model of a molten carbonate fuel cell 1 kW stack
A Szczęśniak, J Milewski, Ł Szabłowski, W Bujalski, O Dybiński
Energy 200, 117442, 2020
202020
A discussion on mathematical models of proton conducting solid oxide fuel cells
J Milewski, A Szczęśniak, L Szablowski
International Journal of Hydrogen Energy 44 (21), 10925-10932, 2019
192019
Artificial neural network model of molten carbonate fuel cells: Validation on experimental data
J Milewski, A Szczȩśniak, Ł Szabłowski, O Dybiński, A Miller
International Journal of Energy Research 43 (13), 6740-6761, 2019
182019
Variant analysis of the structure and parameters of sofc hybrid systems
J Milewski, M Wołowicz, R Bernat, L Szablowski, J Lewandowski
Applied Mechanics and Materials 437, 306-312, 2013
182013
Control strategy of a natural gas fuelled piston engine working in distributed generation system
L Szablowski, J Milewski, J Kuta, K Badyda
Rynek Energii, 33-40, 2011
172011
Dual ionic conductive membrane for molten carbonate fuel cell
R Baron, T Wejrzanowski, Ł Szabłowski, A Szczęśniak, J Milewski, ...
International Journal of Hydrogen Energy 43 (16), 8100-8104, 2018
162018
Recycling electronic scrap to make molten carbonate fuel cell cathodes
J Milewski, K Cwieka, A Szczęśniak, Ł Szabłowski, T Wejrzanowski, ...
International Journal of Hydrogen Energy 48 (31), 11831-11843, 2023
142023
Control strategy for a solid oxide fuel cell fueled by natural gas operating in distributed generation
J Milewski, M Wołowicz, Ł Szabłowski, J Kuta
Energy Procedia 29, 676-682, 2012
132012
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