Ikuti
Katsiaryna Martsinchyk
Katsiaryna Martsinchyk
Nama lainnyaKatsiaryna Razumkova, Katsiaryna Razumkowa
Institute of Heat Engineering, Warsaw University of Technology
Email yang diverifikasi di pw.edu.pl
Judul
Dikutip oleh
Dikutip oleh
Tahun
Feasibility study and techno-economic assessment of power-to-gas (P2G) technology based on solid oxide electrolysis (SOE)
K Martsinchyk, A Martsinchyk, M Łazor, P Shuhayeu, J Kupecki, ...
Journal of Environmental Management 354, 120425, 2024
82024
Model-based quantitative characterization of anode microstructure and its effect on the performance of molten carbonate fuel cell
P Shuhayeu, A Martsinchyk, K Martsinchyk, A Szczęśniak, Ł Szabłowski, ...
International Journal of Hydrogen Energy 52, 902-915, 2024
82024
Numerical analysis of natural gas, hydrogen and ammonia fueled solid oxide fuel cell based micro cogeneration units with anodic gas recirculation
M Bąkała, K Martsinchyk, K Motyliński, J Kupecki, K Machaj
International Journal of Hydrogen Energy 52, 952-964, 2024
62024
Analiza potencjału technologii wodorowych w Polsce do roku 2030 z perspektywą do 2040 roku
J Kupecki, K Motyliński, M Boiski, M Bąkała, K Martsinchyk, L Ajdys, ...
The Institute of Heat Engineering, 2020
32020
Molten carbonate electrolyzer for synthetic fuel generation
A Martsinchyk, A Szczęśniak, K Martsinchyk, O Dybiński, G Cinti, ...
Journal of Power Sources 628, 235741, 2025
22025
Investigating PEM Fuel Cells as an Alternative Power Source for Electric UAVs: Modeling, Optimization, and Performance Analysis
P Shuhayeu, A Martsinchyk, K Martsinchyk, J Milewski
Energies 17 (17), 4427, 2024
22024
Analiza przyczyn niezadowalającego schładzania wody sieciowej powrotnej w węzłach cieplnych
K Razumkova, R Laskowski, A Smyk
Instal, 2019
22019
Analiza potencjału technologii wodorowych w Polsce do roku 2030 z perspektywą do 2040 roku. W ramach programu priorytetowego nr 5.1.1 "Wsparcie Ministra Klimatu w zakresie …
J Kupecki, M Błesznowski, K Motyliński, M Wierzbicki, S Jagielski, ...
http://tekstowa-bip.nfosigw.gov.pl/download/gfx/nfosigw/pl/nfoekspertyzy/858 …, 0
2*
Solid Oxide Electrolysis, Co-Electrolysis, and Methanation Fundamentals of Performance and History.
K Martsinchyk, A Martsinchyk, J Milewski
Energies (19961073) 17 (24), 2024
12024
Carbon dioxide capture by direct methanation in co-electrolysis using solid oxide cell
Y Naumovich, S Jagielski, J Kupecki, K Motylinski, K Martsinchyk, ...
Sustainable Materials and Technologies 40, e00944, 2024
12024
Kierunki rozwoju gospodarki wodorowej w Polsce
M Błesznowski, M Łazor, K Razumkova, M Skrzypkiewicz, K Motyliński, ...
GAZ, WODA I TECHNIKA SANITARNA 1 (9), 21-31, 2022
12022
Corrigendum to “Molten carbonate electrolyzer for synthetic fuel generation”[Journal of Power Sources, Volume 628, 1 February 2025, 235741]
A Martsinchyk, A Szczęśniak, K Martsinchyk, O Dybiński, G Cinti, ...
Journal of Power Sources 631, 236207, 2025
2025
HYFLOW. Czyli nowatorski s system do syntezy e-paliwa
M Łazor, A Martsinchyk, K Martsinchyk, P Shuhayeu, A Baran
Nowa Energia, 51-53, 2023
2023
Analysis of Highly-Efficient Multi-Fuel Micro-Cogeneration Based on Solid Oxide Fuel Cells
M Bakala, K Martsinchyk, K Machaj, J Kupecki, K Motylinski
2023
The compact hybrid system of Molten Carbonate Fuel Cell tailored with supercritical CO2 power cycle
A Martsinchyk, P Shuhayeu, K Martsinchyk, J Milewski, A Szczęśniak
PL Patent P.442,986, 2022
2022
Numerical analysis of natural gas and hydrogen fueled solid oxide fuel cell based micro cogeneration units with anodic gas recirculation
M Bąkała, K Martsinchyk, K Motyliński, J Kupecki
Zeszyty Naukowe. Transport-Politechnika Śląska 1 (1), 2022
2022
Economic Characteristies Techno-economical model of Power-to-Gas Technology
K Razumkova
Instytut Techniki Cieplnej, 2021
2021
Analysis of the cause of the insufficient cooling (" overheating") of return water in district heating substations in the Warsaw DH system
K Razumkova
Instytut Techniki Cieplnej, 2019
2019
HYFLOW
A Baran, K Martsinchyk, M Łazor
Ammonia-Fuelled Solid Oxide Fuel Cells for Stationary and Maritime Applications: Numerical Modeling of Ammonia-Fueled Sofc Systems
K Machaj, K Martsinchyk, M Błesznowski, K Motyliński, J Kupecki, ...
Available at SSRN 4613256, 0
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