Kamil Futyma
Kamil Futyma
Warsaw University of Technology, Institute of Heat Engineering, Power Division
Verified email at itc.pw.edu.pl
TitleCited byYear
Experimental investigation of CO2 separation from lignite flue gases by 100 cm2 single Molten Carbonate Fuel Cell
J Milewski, W Bujalski, M Wo這wicz, K Futyma, J Kucowski, R Bernat
International Journal of Hydrogen Energy 39 (3), 1558-1563, 2014
222014
Operational optimization in district heating systems with the use of thermal energy storage
M Le鄂o, W Bujalski, K Futyma
Energy 165, 902-915, 2018
102018
Molten carbonate fuel cell operation under high concentrations of SO2 on the cathode side
J Milewski, K Futyma, A Szcz窷niak
International Journal of Hydrogen Energy 41 (41), 18769-18777, 2016
102016
Selection of refrigerants for a modified organic Rankine cycle
J Kajurek, A Rusowicz, A Grzebielec, W Bujalski, K Futyma, Z Rudowicz
Energy 168, 1-8, 2019
82019
Off-design operation of an 900 MW-class power plant with utilization of low temperature heat of flue gases
J Milewski, W Bujalski, M Wolowicz, K Futyma, J Kucowski
Journal of Power Technologies 95 (3), 221-227, 2015
72015
Boosting the efficiency of an 800 mw-class power plant through utilization of low temperature heat of flue gases
M Wo這wicz, J Milewski, K Futyma, W Bujalski
Applied Mechanics and Materials 483, 315-321, 2014
72014
Experimental investigation of co2 separation from lignite flue gases by 100 cm2 single molten carbonate fuel cell
J Milewski, W Bujalski, M Wo這wicz, K Futyma, R Bernat
Applied Mechanics and Materials 376, 299-303, 2013
32013
Experimental investigation of co2 separation from hard coal flue gases by 100 cm2 molten carbonate fuel cell
J Milewski, W Bujalski, M Wo這wicz, K Futyma, J Kucowski, R Bernat
Applied Mechanics and Materials 302, 97-103, 2013
32013
Utilization of flue gas low temperature heat from the power unit
K Futyma, M Wolowicz, J Milewski, W Bujalski, J Lewandowski
Rynek Energii, 74-79, 2011
32011
Wp造w w豉軼iwo軼i czynnika roboczego na prac organicznego obiegu Rankine'a
J Kajurek, A Grzebielec, W Bujalski, K Futyma, A Szcz窷niak, Z Rudowicz
Rynek Energii, 2017
22017
Analiza czynnik闚 niskowrz帷ych do rozpr篹ania w cylindrze z t這kiem hydraulicznym
W Bujalski, K Futyma, A Grzebielec, J Milewski, J Kucowski, Z Rudowicz, ...
Ch這dnictwo: organ Naczelnej Organizacji Technicznej 51, 2016
22016
Wykorzystanie niskotemperaturowego ciep豉 odpadowego spalin z bloku ciep這wniczego
K Futyma, M Wo這wicz, J Milewski, W Bujalski, J Lewandowski
Rynek Energii, 74-79, 2011
22011
Use of gas in distributed sources in extensive heating systems
W Bujalski, K Futyma
Archiwum Energetyki 42, 69-79, 2012
12012
The construction of the mathematical model of supercritical CO2 cycles using EBSILON software
M Wo這wicz, J Milewski, K Futyma, A Szcz窷niak
AIP Conference Proceedings 2116 (1), 450085, 2019
2019
Heat exchanger for supercritical CO2 cycle - Mathematical modelling and validation on available experimental data
M Wo這wicz, J Milewski, A Szcz窷niak, K Futyma, P Lis
AIP Conference Proceedings 2116 (1), 450084, 2019
2019
Selected issues of the structures and parameters of supercritical CO2 gas turbine cycles
J law Milewski, K Futyma, A Szczesniak, G Ziembicki
Mechanics and Mechanical Engineering 22 (2), 565-583, 2018
2018
A model of the novel concept liquid piston engine sourced by waste heat
W Bujalski, K Futyma, J Milewski, A Szcz窷niak
MATEC Web of Conferences 240, 2018
2018
CHP plant thermal power increase options
W Bujalski, K Futyma, M Nowicka
Rynek Energii, 2017
2017
Study on the impact of sulphur dioxide on the performance of a molten carbonate fuel cell
K Futyma
The Institute of Heat Engineering, 2016
2016
Influence of high concentrations of SO2 on Molten Carbonate Fuel Cell operation
J Milewski, K Futyma
WIT Transactions on Ecology and the Environment 198, 305-317, 2015
2015
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Articles 1–20