Final Conference 4th April 2024.


Raporty WP 1

[0]
P. Ziółkowski, K. Stasiak and D. Mikielewicz, “Report on the analysis of the steam-gas turbine for the three fuel types” [in Polish]: Raport z analizy obiegu na parogaz dla trzech rodzajów paliwa, nCO2PP
Rep. for purporse of IMP PAN, no0. Task 1,2. December, 2020.

[1]
P. Ziółkowski, K. Stasiak, M. Amiri, P. Dąbrowski and D. Mikielewicz, “PFD (Process Flow Diagram) along with detailed mass, momentum and energy balance of the negative CO2 emission gas power plant (nCO2PP) based on steam gasification of sewage sludge, coupled with CCS,” nCO2PP Rep., no1. Task 1. January, 2021.

[2]
P. Madejski Model of thermodynamic cycle of a negative CO2 emission power plant and thermodynamic analysis of different cycle options. nCO2PP Rep., no2. Task 1. February, 2021.

[3]
P. Madejski, T. Kuś, and N. Subramanian, “Development of the analysis results for the possibility of using spray-ejector condensers for efficient operation in a negative CO2 emission power plant cycle,” nCO2PP Rep., no.3. Task 2. March, 2021.

[4]
T. Ochrymiuk, M. Froissart, and J. Badur, “The preliminary design of WCC,” nCO2PP Rep., no.4. Task 2. March, 2021.

[5]
T. Ochrymiuk, M. Froissart, and J. Badur, “The preliminary design of WCC – qualitative CFD validations,” nCO2PP Rep., no.5. Task 2. March, 2021.

[6]
T. Ochrymiuk, T. Kowalczyk, and J. Badur, “Turbine selection based on commercially available solutions,” nCO2PP Rep., no.6. Task 2. March, 2021.

[7]
T. Ochrymiuk, T. Kowalczyk, and J. Badur, “Fuel and oxygen supply system - tanks capacity calculations,” nCO2PP Rep., no.7. Task 2. March, 2021.

[8]
P. Dąbrowski, P. Ziółkowski, K. Stasiak, M. Amiri, and D. Mikielewicz, “Issues about technical maturity of heat exchangers for devising a unique concept of nCO2PP,” nCO2PP Rep., no. 8. Task 2. March, 2021.

[9]
P. Ziółkowski, T. Ochrymiuk, and J. Badur, “Implementation of oxy-combustion for gas turbines - advantages and disadvantages of classic and innovative methods of steam cooling of WCC,” nCO2PP Rep., no.9. Task 2. April, 2021.

[10]
M. Amiri, P. Ziółkowski, P. Dąbrowski, K. Stasiak, J. Mikielewicz, and D. Mikielewicz, “Issues about technical maturity on separators for devising a unique concept of nCO2PP,” nCO2PP Rep., no. 10. Task 2. April, 2021

[11]
K. Stasiak, P. Ziółkowski, M. Amiri, P. Dąbrowski, and D. Mikielewicz, “Issues about technical maturity on the water feeding system for devising a unique concept of nCO2PP,” nCO2PP Rep., no.11. Task 2. April, 2021.

[12]
P. Madejski, P. Ziółkowski, S. Wrzesień, T. Kuś, N. Subramanian, J. Mikielewicz, D. Mikielewicz: “ Development of the calculations methods and analysis of results for the possibility of using CO2/H2O separators in a negative CO2 emission power plant cycle” nCO2PP Rep., no.12. Task 2. April, 2021.

[13]
H. Pawlak-Kruczek et al., “Technical feasibility, strengths, weaknesses, risks, and opportunities for various fuel valorisation techniques and assessment of their suitability for the novel negative CO2 emission gas power plant (nCO2PP) based on gasification of sewage sludge, couple,” nCO2PP Rep., no.13. Task 2. April, 2021.

[14]
P. Ziółkowski, S. Głuch, J. Badur, P.J. Ziółkowski, Ł. Witanowski, P. Klonowicz, D. Mikielewicz: Issues about design gas-steam turbine for nCO2PP – theoretical analysis for great output turbine nCO2PP Rep., no 14. Task 1. April, 2021.

[15]
P. Bukowski, H. Pawlak-Kruczek, Ł. Niedżwiecki: Economic report from feasibility study of nCO2PP - Negative CO2 emission gas power plant. nCO2PP Rep., no 15. Task 2. April, 2021.

[16]
D. Mikielewicz, K. Stasiak, P. Dąbrowski, M. Amiri and P. Ziółkowski, “Study on application of the Organic Rankine Cycle into a unique concept of nCO2PP as an alternative to the low-pressure expansion,” nCO2PP Rep., no 16. Task 1. April, 2021.

[17]
T. Ochrymiuk, and J. Badur, Principles of stress-strength modelling the wet chamber material - the influence of an effect of strength differential on the material effort. nCO2PP Rep., no 17. Task 1. April, 2021.

[18]
P. Ziółkowski et al Report about investigation technical maturity of the unique concept taking advantage of the synergies between individual sub-systems: fuel preparation, energy generation, carbon capture. Recommendation for the negative CO2 emission gas power plant (nCO2PP). nCO2PP Rep., no 18. Task 2. April, 2021.

[19]
P. Ziółkowski et al Feasibility study basing on thermodynamic analysis of negative CO2 emission power plant, based on oxy-combustion the gas from sewage sludge gasification in a gas turbine with spray-ejector condenser, coupled with CCS, backed up with calculations of the energy efficiency. nCO2PP Rep., no 19. Task 1. April, 2021.


Raporty WP 2

[1]
P. Ziółkowski, J. Badur, K. Stasiak and D. Mikielewicz: Preliminary comparative cycle of a gas-steam unit on the example of a heat and power plant in Gorzów Wielkopolski. nCO2PP Rep., no 1 in WP2. Task 1. June, 2021.

[2]
C. Fu, S. Roussanaly, R. Anantharaman, P. Ziółkowski, K. Stasiak, M. Amiri, P. Dąbrowski, D. Mikielewicz, H. Pawlak-Kruczek, M. Ostrycharczyk, M. Baranowski, K. Krochmalny, M. Czerep, M. Kowal, Ł. Niedźwiecki, P. Madejski, N. Subramanian: Framework for process design and assessment. nCO2PP Rep., no 2 in WP2. Task 1. July, 2021


Raporty WP 3

[1]
Q. K. Tran, M. Malhotra: Hydrothermal carbonization of sewage sludge for maximization of mechanical dewatering and improved fuel parameters. nCO2PP Rep., no 1 in WP3. Task 1, December, 2021

[2]
H. Pawlak-Kruczel, Ł. Niedźwiecki: Drying of carbonized and mechanically dewatered sewage sludge using low quality heat. nCO2PP Rep., no 2 in WP3. Task 2, December, 2021

[3]
H. Pawlak-Kruczel, Ł. Niedźwiecki: Pelletizing and briquetting of Hydrothermal Carbonization treated sewage sludge. nCO2PP Rep., no 3 in WP3. Task 3, December, 2021

[4]
H. Pawlak-Kruczel, Ł. Niedźwiecki: Safety of handling and storage of thermally valorized sewage sludge – material parameters, PID and functional specification of the proposed monitoring system. nCO2PP Rep., no 4 in WP3. Task 4, December, 2021

[5]
H. Pawlak-Kruczel, Ł. Niedźwiecki: Gasification of HTC treated sewage sludge in a slagging type fixed bed gasifier. nCO2PP Rep., no 5 in WP3. Task 5, December, 2021

[6]
H. Pawlak-Kruczel, Ł. Niedźwiecki, T.Mączka: PID and functional specification of the modular system for HTC, low temperature drying, densification and gasification in a slagging type gasifier for sewage sludge. nCO2PP Rep., no 6 in WP3. Task 6, December, 2021


Raporty WP 4

[1]
T. Ochrymiuk, M. Froissart, J. Badur, T. Kowalczyk, R. Szwaba, P. Kaczyński: Conceptual project of wet combustion chamber and working drawing of combustion chamber. nCO2PP Rep., no 1 in WP4. Task 1, December, 2021

[2]
I. S. Ertesvåg, N. Guo: Two journal papers submitted And Articles submitted. nCO2PP Rep., no 2 in WP4. Task 1, December, 2021

[3]
I. S. Ertesvåg, T. Ochrymiuk, N. Guo, M. Froissart, J. Badur, T. Kowalczyk: Detailed CFD model of combustion chamber in oxy-combustion technology. nCO2PP Rep., no 3 in WP4. Task 1, December, 2021

[4]
T. Ochrymiuk, M. Froissart, J. Badur, T. Kowalczyk: Choice of pseudo-turbine technology Part 1 and P. Ziółkowski, Ł. Witanowski , P. Klonowicz, S. Głuch, P. Zych, D. Mikielewicz: Choice of pseudo-turbine technology Part 2. nCO2PP Rep., no 4 in WP4. Task 2, December, 2021

[5]
T. Ochrymiuk, M. Froissart, J. Badur, T. Kowalczyk: Construction of fuel, oxygen and water supply system to the combustion chamber and cooperation of this elements. nCO2PP Rep., no 5 in WP4. Task 3, December, 2021

[6]
T. Ochrymiuk, M. Froissart, J. Badur, T. Kowalczyk: Working control installation of fuel, oxygen and water supply system to the combustion chamber and cooperation of this elements. nCO2PP Rep., no 6 in WP4. Task 4, December, 2021

[7]
T. Ochrymiuk, M. Froissart, J. Badur, T. Kowalczyk, M. Kowalczyk: Working combustion installation in oxygen for various pressures (from ambient to 40 bar). nCO2PP Rep., no 7 in WP4. Task 5, December, 2021


Raporty WP 5

[1]
K. Banasiak, P. Madejski, M. Karch, P. Michalak, T. Kuś, N. Subramanian, P. Ziółkowski, K. Stasiak, M. Amiri, P. Dąbrowski, D. Mikielewicz, T. Ochrymiuk, J. Mikielewicz : The basic design of the spray-ejector condenser. nCO2PP Rep., no 1 in WP5. Task 1, June, 2022

[2]
P. Madejski, M. Karch, P. Michalak, T. Kuś, N. Subramanian, K. Banasiak: Conceptual design of a water-driven spray-jet condenser installation. nCO2PP Rep., no 2 in WP5. Task 2, August, 2022

[3]
P. Madejski, K. Banasiak, P. Ziółkowski, D. Mikielewicz, J. Mikielewicz, T. Kuś, M. Karch, P. Michalak, M. Amiri, P. Dąbrowski, K. Stasiak, N. Subramanian, T. Ochrymiuk: The design of phase separator with the use of 3D CFD models and various options of mechanical separation systems. Numerical models of water subcooler to provide safe operation of the circulation pumps, free of danger of cavitation, as well as, a separate part dedicated to dehumidifying of gaseous CO2. nCO2PP Rep., no 3 in WP5. Task 3, December, 2021


Raporty WP 6

[1]
T. Ochrymiuk, M. Froissart, J. Badur, T. Kowalczyk, R. Szwaba, P. Kaczyńsk: Assembly of technology demonstrator: power supply system, water-cooled oxy-combustion chamber, pseudoturbine with generator, condenser. nCO2PP Rep., no 1 in WP6. Task 1-4, December, 2021