Year 2024

• CO2 capture using steam ejector condenser under electro hydrodynamic actuator with non-condensable gas and cyclone separator: A numerical study

  Publication

  • M. Amiri
  • J. Mikielewicz
  • D. Mikielewicz

  - SEPARATION AND PURIFICATION TECHNOLOGY - Year 2024

  The concept for condensation of steam and CO2 separation in a negative CO2 emission gas power plant involves the utilization of a steam ejector condenser (SEC) for direct-contact condensation of vapor with inert gas (CO2) on a spray of subcooled liquid, integrated with a separator to produce pure CO2. Due to the increasing diffusion resistance and reduced convective heat transfer between the steam and subcooled water phases...

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• High-speed multi-stage gas-steam turbine with flow bleeding in a novel thermodynamic cycle for decarbonizing power generation

  Publication

  • P. Ziółkowski
  • Ł. Witanowski
  • P. Klonowicz
  • D. Mikielewicz

  - RENEWABLE ENERGY - Year 2024

  In the global pursuit of sustainable energy and reduced carbon footprints, advances in power generation techniques play a crucial role, not only in meeting the ever-increasing energy demands but also in ensuring that environmental standards are maintained and that the health of our planet is prioritized for future generations. In the ongoing quest for sustainable energy solutions, novel high-speed multi-stage gas-steam turbine...

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• Negative CO2 Emission Gas Power Plant As Technology for Utilization of Sewage Sludge, Production of Electrical Energy, and CO2 Capture - Case of Chamber Under Transpiration Cooling

  Publication

  • P. Ziółkowski
  • K. Stasiak
  • M. Ditaranto
  • S. Wiseman
  • M. Kaszuba
  • D. Mikielewicz

  - Year 2024

  This work focuses on the concept developed in the nCO2PP project, which aims to demonstrate a technology that allows to achieve negative CO2 emissions through Carbon Capture and Storage (CCS) applied to sewage sludge. A feedstock is first gasified, then the resulting syngas is burned in a semi-closed oxy-fuel gas turbine with pure oxygen and water, using the advantages of oxy-combustion, to ease the capture of CO2 in the resulting...

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• Selected aspects of performance of organic Rankine cycles incorporated into bioenergy with carbon capture and storage using gasification of sewage sludge

  Publication

  • K. Stasiak
  • P. Ziółkowski
  • D. Mikielewicz

  - JOURNAL OF ENERGY RESOURCES TECHNOLOGY-TRANSACTIONS OF THE ASME - Year 2024

  The study aims to investigate the application of the Organic Rankine Cycle (ORC) in the bioenergy with carbon capture and storage (BECCS) using gasification of sewage sludge. The tool used in the investigation is the Aspen Plus software with REFPROP property methods for calculating fluid properties. The reason for this study is that a detailed analysis of the proposed BECCS process flow diagram indicates that a certain amount of...

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Year 2023

• Assessment, optimisation and working fluid comparison of organic rankine cycle combined with negative CO2 gas power plant system

  Publication

  • K. Stasiak
  • P. Ziółkowski
  • D. Mikielewicz

  - Year 2023

  This study aims to investigate the application of the Organic Rankine Cycle (ORC) as an alternative to low-pressure expansion in the negative CO2 power plant (nCO2PP). The reason for this study is that a detailed analysis of nCO2PP indicates a certain amount of waste heat present in the exhaust gas from the high-to-intermediate pressure gas turbine. Some of this energy can be used by the application of the expansion in a low-pressure...

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• Development of a spray-ejector condenser for the use in a negative CO2 emission gas power plant

  Publication

  • P. Madejski
  • K. Banasiak
  • P. Ziółkowski
  • D. Mikielewicz
  • J. Mikielewicz
  • T. Kuś
  • M. Karch
  • P. Michalak
  • M. Amiri
  • P. Dąbrowski... and 3 others

  - ENERGY - Year 2023

  One promising solution for developing low-emission power technologies is using gaseous fuel combustion in pure oxygen when the exhaust gas mixture is composed of H2O and CO2, and where CO2 is separated after steam condensation. The paper presents the results of computational analyses providing to the Spray-Ejector Condenser (SEC) development, which is one of the crucial components of the negative CO2 gas power plant (nCO2PP) cycle...

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• Double-stage ORC system based on various temperature waste heat sources of the negative CO2 power plant

  Publication

  • K. Stasiak
  • P. Ziółkowski
  • D. Mikielewicz

  - Year 2023

  Analysed is the modification of the thermodynamic cycle with the negative CO2 power plant concept by its combination with the organic Rankine cycle. The analysed power plant operates on a gas produced from the gasification of sewage sludge. The negative emission term comes from the aggregated CO2 balance resulting from the capture of the CO2, while the sewage sludge is one of the inevitable environmental sources of CO2 to be avoided....

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• Exergetic Analysis of the nCO2PP Cycle with Particular Reference to the Exergy Destruction of Sewage Sludge Due to Gasification

  Publication

  • K. Stasiak
  • I. S. Ertesvåg
  • P. Ziółkowski
  • D. Mikielewicz

  - Year 2023

  An exergy analysis is carried out on the negative CO2 emission gas power plant (nCO2PP), which integrates the process sections of fuel preparation, power generation and carbon capture. Processes of exergy destruction are studied with particular focus on the process in the gasification unit of the fuel preparation section, where a large amount of exergy is destroyed in various chemical reactions from sewage sludge to producer gas...

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• Exergy analysis of a negative CO2 emission gas power plant based on water oxy-combustion of syngas from sewage sludge gasification and CCS

  Publication

  • I. S. Ertesvåg
  • P. Madejski
  • P. Ziółkowski
  • D. Mikielewicz

  - ENERGY - Year 2023

  A power cycle with water-injected oxy-combustion (water cycle) is investigated by exergy analysis. It is fueled with syngas (aka. producer gas) from gasification of sewage sludge. The cycle is equipped with a spray-ejector condenser (SEC). CO2 is separated and compressed for transportation and storage. The net delivered electric power is 31% of the fuel exergy. The task efficiency is 39% when the flue gas bleed to gasification...

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• Modeling of entrained flow steam gasification of sewage sludge

  Publication

  • J. Mularski
  • K. Stasiak
  • M. Ostrycharczyk
  • M. Czerep
  • M. Wnukowski
  • K. Krochmalny
  • M. Baranowski
  • P. Ziółkowski
  • M. Kowal
  • Ł. Niedźwiecki... and 2 others

  - Year 2023

  Proper management of sewage sludge becomes increasingly problematic due to legal requirements aiming at diminishing environmental impact, as well as rationalizing the utilization from the point of view of logistics. Steam gasification of sewage sludge can result in very good quality of the producer gas. So far, the works have been focused on the gasification in fixed bed gasifiers. However, this does not allow to take full advantage...

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• Negative carbon dioxide gas power plant integrated with gasification of sewage sludge

  Publication

  • P. Ziółkowski
  • K. Stasiak
  • M. Amiri
  • D. Mikielewicz

  - ENERGY - Year 2023

  One of the primary objectives of the negative carbon dioxide gas power plant (nCO2PP) is to develop an innovative technology confirming the possibility of the use of sewage sludge to produce electricity while having a positive impact on the environment. In this paper, a mathematical model is presented to estimate thermodynamic parameters of the system in relation to the gasification process and changes in such parameters in the...

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• Performance of cryogenic oxygen production unit with exhaust gas bleed for sewage sludge gasification and different oxygen purities

  Publication

  • M. Kaszuba
  • P. Ziółkowski
  • D. Mikielewicz

  - Archives of Thermodynamics - Year 2023

  The paper presents a thermodynamic analysis of the integration of a cryogenic air separation unit into a negative CO2 emission gas power plant. The power cycle utilizes sewage sludge as fuel so this system fits into the innovative idea of bioenergy with carbon capture and storage. A cryogenic air separation unit integrated with the power plant was simulated in professional plant engineering and thermodynamic process analysis software....

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Year 2022

• Entrained Flow Plasma Gasification of Sewage Sludge–Proof-of-Concept and Fate of Inorganics

  Publication

  • D. Mikielewicz
  • P. Ziółkowski
  • V. Vishwajeet
  • H. Pawlak-kruczek
  • M. Baranowski
  • M. Czerep
  • A. Chorążyczkowski
  • K. Krochmalny
  • K. Ostrycharczyk
  • P. Madejski... and 5 others

  - ENERGIES - Year 2022

  Sewage sludge is a residue of wastewater processing that is biologically active and consists of water, organic matter, including dead and living pathogens, polycyclic aromatic hydrocarbons, and heavy metals, as well as organic and inorganic pollutants. Landfilling is on the decline, giving way to more environmentally friendly utilisation routes. This paper presents the results of a two-stage gasification–vitrification system, using...

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• From fluid mechanics backgrounds to modern field theory

  Publication

  • J. Badur
  • T. Ochrymiuk
  • T. Kowalczyk
  • W. Dudda
  • P. Ziółkowski

  - ACTA MECHANICA - Year 2022

  Our presentation keeps a historical line of reasoning, since we start from old concepts of fluid mechanics and finish on concepts of modern field theory. We want to show that some facts from the nature phenomena, which have firstly been discovered on the ground of fluid mechanics, were next incorporated into physics and later become the important pattern for whole mathematical physics. Especially, well-known continuum models, which...

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• Mathematical modelling of gasification process of sewage sludge in reactor of negative CO2 emission power plant

  Publication

  • P. Ziółkowski
  • J. Badur
  • H. Pawlak-kruczek
  • K. Stasiak
  • M. Amiri
  • L. Niedzwiecki
  • K. Krochmalny
  • J. Mularski
  • P. Madejski
  • D. Mikielewicz

  - ENERGY - Year 2022

  Sewage sludge is a residue of wastewater processing that is biologically active and consists of water,organic matter, including dead and alive pathogens, as well as organic and inorganic contaminants suchas polycyclic aromatic hydrocarbons (PAHs) and heavy metals. Due to the nature of sewage sludge and itspossible influence on human health and wellbeing, it is a subject of various regulations. Currently,sewage sludge is considered...

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• Thermodynamic, ecological, and economic analysis of negative CO2 emission power plant using gasified sewage sludge

  Publication

  • A. Ziółkowski
  • H. Pawlak-kruczek
  • P. Madejski
  • P. Bukowski
  • T. Ochrymiuk
  • K. Stasiak
  • M. Amiri
  • L. Niedzwiecki
  • D. Mikielewicz

  - Year 2022

  Currently, sewage sludge is considered as a biomass, according to the Polish act on renewable energy sources from 20th of February 2015 and its novel version from 19th of July 2019. Possibility to utilize sewage sludge in gasification process is an additional advantage of the negative CO2 emissions power plant (nCO2PP). The work presents results of thermodynamic, ecological, and economical analysis using a zero-dimensional mathematical...

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Year 2021

• A study of jet impingement cooling enhancement by concave and convex heat sink shape modifications

  Publication

  • M. Froissart
  • P. Ziółkowski
  • J. Badur

  - E3S Web of Conferences - Year 2021

  The rising demand for efficient cooling technologies is a strong driver of extensive research in this area. This trend is particularly strong in turbines and microprocessors technology. Presented study is focused on the jet impingement cooling concept, which is used in various configurations for many years. The potential of the heat sink shape modification is not yet fully explored. Available literature suggests that average Nusselt...

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• Energy and exergy analysis of negative CO2 emission gas power plant operation using thermodynamic modelling results of the cycle

  Publication

  • P. Madejski
  • I. S. Ertesvåg
  • P. Ziółkowski
  • D. Mikielewicz

  - Year 2021

  A developed cycle of negative CO2 emission gas power plant is presented. The cycle is an oxy-combustion gas turbine cycle where the gas fuel is burnt with pure oxygen, and liquid water is injected to the combustor to keep the temperature at an appropriate level for the gas turbine. The negative level of CO2 emission can be obtained by combining CO2 capture method with the usage of a gas fuel based on sewage sludge gasification....

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• Heat exchange enhancement of jet impingement cooling with the novel humped-cone heat sink

  Publication

  • M. Froissart
  • P. Ziółkowski
  • W. Dudda
  • J. Badur

  - Case Studies in Thermal Engineering - Year 2021

  Jet impingement cooling technology is applicable to control temperature of devices, where very high heat flux is generated within a small area. This paper is about the improvement of the jet impingement cooling efficiency by the heat sink geometry modification. Two reference cases were sourced from the literature – flat heat sink and modified one with cone in the jet stagnation region. Such a change improves cooling capability...

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• OPTIMIZATION OF THE LAST STAGE OF GAS-STEAM TURBINE USING A HYBRID METHOD

  Publication

  • P. Ziółkowski
  • Ł. Witanowski
  • P. Klonowicz
  • S. Głuch

  - Year 2021

  This paper relates to the CFD calculation of a new turbine type which is in the phase of theoretical analysis, because the working fluid is a mixture of steam and gas generated in wet combustion chamber. At first, this article concentrates on a possibility of streamlining the flow efficiency of a last stage of axial turbine working on gas-steam mixture using a hybrid of the particle swarm optimization algorithm with the Nelder-Mead...

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• Revalorisation of the Szewalski’s concept of the law of varying the last-stage blade retraction in a gas-steam turbine

  Publication

  • P. Ziółkowski
  • S. Głuch
  • T. Kowalczyk
  • J. Badur

  - E3S Web of Conferences - Year 2021

  The article presents the implementations of the free vortex law to the blade of the last stage of a gas-steam turbine. First, a thermodynamic analysis was carried out, determining the parameters at the inlet, then the number of stages of the high and low-pressure part of the turbine was constructed, together with the kinematics and velocity vectors for subsequent stages of the axial turbine. The last step of article was to take...

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Year 2020

• Computational Fluid Dynamics Simulation of Gas–Liquid Multiphase Flow in T-junction for CO2 Separation

  Publication

  • S. Wrzesień
  • P. Madejski
  • P. Ziółkowski

  - Prace Naukowe Wydziału Architektury Politechniki Wrocławskiej - Year 2020

  The article presents the results of a computational fluid dynamics (CFD) analysis of gas-liquid multiphase flow. The simulation was conducted using CFD code and the Euler–Euler approach. The presented study relates to the non–reactive, steady-state, turbulent flow of water and carbon dioxide mixture in a 3D pipe. Separation phenomenon between phases is observed. The solution was obtained using a mixture model. Different values...

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