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Multiphase Flow Department

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Selected publications

2019
2018
2017
2016
2015
2014
2013
2012
2011
2010
2009
2008
2007

Pozorski J., Rosa B. (2019)
The motion of settling particles in isotropic turbulence: filtering impact and kinematic simulations as subfilter model.
In: Direct and Large-Eddy Simulation XI (Armenio V., Fröhlich J., Salvetti M.V., Kuerten H., Geurts B.J., Editors), Springer, 7 pp. (to appear).

Grucelski A. (2018)
Thermal dilatation of solid grains: the LBM approach.
Journal of Physics: Conference Series 1101, art. 012007.
Kajzer A., Pozorski J. (2018)
Application of the Entropically Damped Artificial Compressibility model to direct numerical simulation of turbulent channel flow.
Computers and Mathematics with Applications 76, 997-1013.
Kajzer A., Pozorski J. (2018)
Diffuse interface models for two-phase flows in artificial compressibility approach.
Journal of Physics: Conference Series 1101, art. 012013.
Lewandowski M.T., Ertesvåg I.S. (2018)
Analysis of the Eddy Dissipation Concept formulation for MILD combustion modelling.
Fuel 224, 687-700.
Lewandowski M.T., Płuszka P., Pozorski J. (2018)
Infuence of inlet boundary conditions in computations of turbulent jet flames.
International Journal of Numerical Methods for Heat and Fluid Flow 28, 1433-1456.
Li Z., Lewandowski M.T., Contino F., Parente A. (2018)
Assessment of On-the-Fly Chemistry Reduction and Tabulation Approaches for the Simulation of Moderate or Intense Low-Oxygen Dilution.
Energy & Fuels 32, 10121-10131.
Olejnik M., Pozorski J. (2018)
Sediment transport in a free-surface flows using δ–like two-fluid SPH.
13th International SPHERIC Workshop, Galway, Ireland, 26-28 June. Proceedings, pp. 353-358. ISBN: 978-1-908358-59-2.
Olejnik M., Pozorski J. (2018)
Wetting phenomena and droplet-wall interaction modelling with Smoothed Particle Hydrodynamics approach.
Journal of Physics: Conference Series 1101, art. 012024.
Olejnik M., Szewc K. (2018)
Smoothed Particle Hydrodynamics modelling of the Rayleigh-Plateau instability.
Journal of Theoretical and Applied Mechanics 56, 675-686.
Pozorski J. (2018)
Subfilter effects in LES of particle-laden flows: an overview of modelling approaches.
ERCOFTAC Bulletin 116, 32-37.

Grucelski A., Pozorski J. (2017)
Application of Lattice Boltzmann method to meso-scale modelling of coal devolatilisation.
Chemical Engineering Science 172, 503-512.
Henry C. (2017)
Surface Forces and Their Application to Particle Deposition and Resuspension.
In: Particles in Wall-Bounded Turbulent Flows (Minier J.P., Pozorski J., Eds.), pp. 209-261, Springer.
Kajzer A., Pozorski J. (2017)
Application of the Lattice Boltzmann Method to flow past a sphere.
Journal of Theoetical and Applied Mechanics, 55, 1091-1099.
Lewandowski M.T., Ertesvåg I.S., J. Pozorski (2017)
Influence of the reactivity of the fine structures in modeling of the jet-in-hot-coflow flames with the Eddy Dissipation Concept.
8th European Combustion Meeting (ECM), 18-21 April, Dubrovnik, Croatia, pp. 1589-1594, Proceedings on USB. ISBN 978-953-59504-1-7.
Łuniewski M., Pozorski J.,
Spatial distribution and settling velocity of heavy particles in synthetic turbulent fields.
Transactions of the Institute of Fluid-Flow Machinery 135, 87-100.
Olejnik M., Szewc K., Pozorski J. (2017)
SPH with dynamical smoothing length adjustment based on the local flow kinematics.
Journal of Computational Physics 348, 23-44.
Olejnik M., Szewc K., Pozorski J. (2017)
Modelling of the dispersed phase motion in free-surface flows with the two-fluid Smoothed Particle Hydrodynamics approach.
5th Int. Conference on Particle-based Methods, Hannover, Germany, 26-28 September. Proceedings on the Conference Website (e-book), pp. 21-32. ISBN 978-84-946909-7-6.
Pozorski J. (2017)
Models of Turbulent Flows and Particle Dynamics.
In: Particles in Wall-Bounded Turbulent Flows (Minier J.P., Pozorski J., Eds.), pp. 97-150, Springer.
Rosa B., Pozorski J. (2017)
Impact of subgrid fluid turbulence on inertial particles subject to gravity.
Journal of Turbulence 18, 634-652.
Szewc K. (2017)
Smoothed particle hydrodynamics modeling of granular column collapse.
Granular Matter 19, art.3, pp.1-13.

Grucelski A. (2016)
LBM estimation of thermal conductivity in meso-scale modelling.
Journal of Physics: Conference Series 760, art. 012005.
Grucelski A., Pozorski J. (2016)
Shift-periodic boundary condition for heat transfer computations in lattice Boltzmann method.
International Communications in Heat and Mass Transfer 77, 116-122.
Henry C., Norrfors K., Olejnik M., Bouby M., Luetzenkirchen J., Wold S., Minier J.P. (2016)
A refined algorithm to simulate latex colloid agglomeration at high ionic strength.
Adsorption 22, 503-515.
Lewandowski M.T., Ertesvåg I.S. (2016)
The impact of the fine structure formulation in the eddy dissipation concept for MILD combustion modeling.
Proceedings of 11th Symposium on Engineering Turbulence Modelling and Measurements (ETMM), Palermo, Italy, 21-23 September, paper no. 128.
Lewandowski M.T., Pozorski J. (2016)
Assessment of turbulence-chemistry interaction models in the computation of turbulent nonpremixed flames.
Journal of Physics: Conference Series 760, art. 012015.
Olejnik M., Szewc K., Pozorski J. (2016)
Application of the Okubo-Weiss parameter to the dynamical smoothing length adjustment in SPH.
11th International SPHERIC Workshop, Munich, Germany, 13-16 June. Proceedings, pp. 159-166. ISBN 978-3000-533587.
Olejnik M., Szewc K., Pozorski J. (2016)
Modelling of the flow regime transition with the Smoothed Particle Hydrodynamics.
9th International Conference on Multiphase Flow, Firenze, Italy, 22-27 May. Proceedings on USB-pendrive, art. 1037, 6 pp.
Pozorski J., Knorps M. (2016)
Towards stochastic modelling of inertial particle dispersion in wall-bounded turbulent flows.
9th International Conference on Multiphase Flow, Firenze, Italy, 22-27 May. Proceedings on USB-pendrive, art. 969, 5 pp.
Rosa B., Pozorski J. (2016)
Analysis of subfilter effects on inertial particles in forced isotropic turbulence.
9th International Conference on Multiphase Flow, Firenze, Italy, 22-27 May. Proceedings on USB-pendrive, art. 974, 5 pp.

Grucelski A., Pozorski J. (2015),
Lattice Boltzmann simulations of heat transfer in flow past a cylinder and in simple porous media.
International Journal of Heat and Mass Transfer 86, 139-148.
Knorps M., Pozorski J. (2015),
An inhomogeneous stochastic model for subgrid-scale particle dispersion in LES.
In: Direct and Large Eddy Simulation IX (Eds.: Fröhlich J., Kuerten H., Geurts B.J., Armenio V.), pp. 671-678, Springer.
Pozorski J. (2015),
On general-purpose turbulence models in CFD.
Transactions of the Institute of Fluid-Flow Machinery 127, 45-62.
Pozorski J. (2015),
Modele dyspersji turbulentnej cząstek.
Metody matematyczne w zastosowaniach (Red.: A. Bartłomiejczyk), Tom 3, str. 247-262. Centrum Zastosowań Matematyki, Politechnika Gdańska. ISBN 978-83-937569-2-6.
Szewc K., Pozorski J., Minier J.P. (2015),
Spurious interface fragmentation in multiphase Smoothed Particle Hydrodynamics.
International Journal for Numerical Methods in Engineering 103, 625-649.

Allery C., Beghein C., Wacławczyk M., Pozorski J. (2014),
Application of POD-based dynamical systems to dispersion and deposition of particles in turbulent channel flow.
International Journal of Multiphase Flow 58, 97-113.
Henry C., Minier J.P., Mohaupt M., Profeta C., Pozorski J., Taniere A. (2014),
A stochastic approach for the simulation of collisions between colloidal particles at large time steps.
International Journal of Multiphase Flow 61, 94-107.
Henry C., Minier J.P. (2014),
Progress in particle resuspension from rough surfaces by turbulent flows.
Progress in Energy and Combustion Science 45, 1-53.
Henry C., Minier J.P. (2014),
A stochastic approach for the simulation of resuspension from rough substrates: model and numerical implementation.
Journal of Aerosol Science 77, 168-192.
Kajzer A., Pozorski J., Szewc K. (2014),
Large-Eddy Simulation of 3D Taylor-Green vortex: comparison of Smoothed Particle Hydrodynamics,
Lattice Boltzmann and Finite Volume methods. Journal of Physics: Conference Series 530, 012019.
Szewc K., Pozorski J., Minier J.P. (2014),
On the issue of interface spurious fragmentations in multiphase SPH.
Proceedings of the 9th Int. SPHERIC Workshop, Paris, France, 3-5 June, pp.72-79.

Butterweck M., Pozorski J. (2013),
Inverse method for viscous flow design using stream-function coordinates.
Acta Mechanica 224, 801-812.
Grucelski A., Pozorski J. (2013),
Lattice Boltzmann simulation of flow past a circular cylinder and in simple porous media.
Computers and Fluids 71, 406-416.
Henry C., Minier J.P., Pozorski J., Lefevre G. (2013),
A new stochastic approach for the simulation of agglomeration between colloidal particles.
Langmuir 29, 13694-13707.
Michałek W.R., Kuerten J.G.M., Zeegers J.C.H., Liew R., Pozorski J., Geurts B.J. (2013),
A hybrid stochastic-deconvolution model for large-eddy simulation of particle-laden flow.
Physics of Fluids 25, art.123202, pp.1-15.
Szewc K., Pozorski J., Minier J.P. (2013),
Simulations of single bubbles rising through viscous liquids using Smoothed Particle Hydrodynamics.
International Journal of Multiphase Flow 50, 98-105.

Grucelski A., Pozorski J. (2012)
Lattice Boltzmann simulation of fluid flow in porous media of temperature-affected geometry.
Journal of Theoretical and Applied Mechanics 50,193-214.
Szewc K., Pozorski J., Minier J.P. (2012)
Analysis of the incompressibility constraint in the Smoothed Particle Hydrodynamics method.
International Journal for Numerical Methods in Engineering 92, 343-369.
Pozorski J., Knorps M., Minier J.P., Kuerten J.G.M. (2012)
Anisotropic stochastic dispersion model for LES of particle-laden turbulent flows.
9th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements (ETMM9), Thessaloniki, Greece, 6-8 June 2012.
Butterweck M., Pozorski J. (2012)
Inverse method for 2D viscous flow design problem using stream-function coordinates for axisymmetric model.
Conference on Modelling Fluid Flow (CMFF12), The 15th International Conference on Fluid Flow Technologies, Budapest, Hungary, 4-7 September 2012.
Butterweck M., Pozorski J. (2012)
Inverse method for blade-to-blade and axisymmetric viscous flow models in cylindrical coordinates using stream-function transformation.
XX Fluid Mechanics Conference (KKMP2012), Gliwice, Poland, 17-20 September 2012.
Butterweck M.P. (2012)
Użycie współrzędnych funkcji prądu do rozwiązania zadania odwrotnego przepływu nieściśliwego lepkiego na powierzchniach cylindrycznych.
Rozdział w monografii: Współczesne Technologie i Konwersja Energii, Wydział Mechaniczny PG, Gdańsk, str. 55-62.
Grucelski A. (2012)
Implementacja niesferycznej reprezentacji przeszkód w metodzie siatkowej Boltzmanna.
Rozdział w monografii: Współczesne Technologie i Konwersja Energii, Wydział Mechaniczny PG, Gdańsk, str. 97-102.
Knorps M. (2012)
Analiza a priori prędkości cząstek w dwufazowym przepływie turbulentnym w kanale.
Rozdział w monografii: Współczesne Technologie i Konwersja Energii, Wydział Mechaniczny PG, Gdańsk, str. 217-222.
Szewc K., Pozorski J. (2012)
Buoyancy driven, multiphase flow simulations using Smoothed Particle Hydrodynamics.
XX Fluid Mechanics Conference (KKMP2012), Gliwice, Poland, 17-20 September 2012.
Szewc K., Pozorski J., Minier J.P. (2012)
Simulations of single bubbles rising through liquids using Smoothed Particle Hydrodynamics.
9th European Fluid Mechanics Conference, Rome, Italy, 9-13 September 2012.
Szewc K. , Tanière A., Pozorski J., Minier J.P. (2012)
A study on application of Smoothed Particle Hydrodynamics to multi-phase flows.
International Journal of Nonlinear Sciences and Numerical Simulation 13, 383-395.
Łuniewski M., Kotula P., Pozorski J. (2012)
Large-Eddy simulations of particle-laden turbulent jets.
TASK Quarterly 16, 33-51.

Pozorski J., Łuniewski M. (2011)
Analysis of SGS effects on dispersed particles in LES of heated channel flow.
In: Quality and Reliability of Large-Eddy Simulations II, (Eds.: M.V Salvetti, B. Geurts), Springer.
Butterweck M. (2011)
Analiza wymiarowa modelu zadania odwrotnego dla przepływu nieściśliwego, lepkiego we współrzędnych funkcji prądu.
Współczesne Technologie i Konwersja Energii. Wydział Mechaniczny PG, Gdańsk, str. 163-170.
Góralczyk A., Chaja P., Adamkowski A. (2011)
Method for calculating performance characteristics of hydrokinetic turbines,
TASK Quarterly 15 No 1, 43-57.
Grucelski A. (2011)
Opływ zbioru przeszkód o geometrii ziaren zależnej od temperatury z wykorzystaniem metody siatkowej Boltzmanna.
Współczesne Technologie i Konwersja Energii. Wydział Mechaniczny PG, Gdańsk, str. 115-124.
Pozorski J., Łuniewski M., Knorps M. (2011)
Effects of subfilter velocity modelling on dispersed phase in LES of heated channel flow.
Journal of Physics: Conference Series 333, art. 012014.
Szewc K. (2011)
Broken dam simulations using Smoothed Particle Hydrodynamics.
Copernican Letters 2 (ISSN: 2082968X), 141-154.
Szewc K., Pozorski J., Tanière A. (2011)
Modeling of natural convection with Smoothed Particle Hydrodynamics: Non-Boussinesq formulation.
International Journal of Heat and Mass Transfer 54, 4807-4816.

1.	Taniere A., Arcen B., Oesterle B., Pozorski J. (2010) Study on Langevin model parameters of velocity in turbulent shear flows. Physics of Fluids 22, art. 115101.
2.	Szewc K., Pozorski J. (2010) A study on implementation of incompressibility in the Smoothed Particle Hydrodynamics. Euromech Fluid Mechanics Conference, September 13-16, Bad Reichenhall.
3.	Łuniewski M., Pozorski J. (2010) LES of turbulent particle-laden coaxial jets. XIX Krajowa Konferencja Mechaniki Płynów, Poznań, 5-9 września (CD-ROM).
4.	Pozorski J., Łuniewski M., Knorps M. (2010) Effects of subfilter velocity modelling on dispersed phase in heated channel flow. XIX Krajowa Konferencja Mechaniki Płynów, Poznań, 5-9 września (CD-ROM).
5.	Grucelski A., Pozorski J. (2010) Lattice Boltzmann simulation of fluid flow and heat transfer in porous media of variable geometry. XIX Krajowa Konferencja Mechaniki Płynów, Poznań, 5-9 września (CD-ROM).
6.	Butterweck M., Pozorski J. (2010) Inverse method for viscous 2D flow design using stream function coordinates. XIX Krajowa Konferencja Mechaniki Płynów, Poznań, 5-9 września (CD-ROM).
7.	Chaja P., Góralczyk A., Koronowicz T. (2010) Experimental and numerical investigation of small axial turbines. XIX Krajowa Konferencja Mechaniki Płynów, Poznań, 5-9 września (CD-ROM).
8.	Góralczyk A., Chaja P., Koronowicz T. (2010) Analysis of wall influence in hydrodynamic tunnel on a experimental data for tidal turbines. XIX Krajowa Konferencja Mechaniki Płynów, Poznań, 5-9 września (CD-ROM).

1.	Pozorski J., Apte S.V. (2009) Filtered particle tracking in isotropic turbulence and stochastic modeling of subgrid-scale dispersion. Int. J. Multiphase Flow 35, 118-128.
2.	Wacławczyk M, Pozorski J., Minier J.P. (2009) Filtered density function modelling of near-wall scalar transport with POD velocity modes. Int. J. Heat Fluid Flow 30, 76-87.
3.	Grucelski A., Pozorski J. (2009) Lattice Boltzmann simulation of flow and heat transfer in porous media. First International Conference on Computational Methods for Thermal Problems, September 8-10, Naples (Italy). Proceedings, pp.137-140.
4.	Chaja P., Koronowicz T. (2009) Towards the design of low noise level wind turbines. TASK Quarterly 13, 393-401

1.	Pozorski J., Łuniewski M. (2008) Analysis of SGS particle dispersion model in LES of channel flow. Quality and Reliability of Large-Eddy Simulations (J. Meyers, B. Geurts, P. Sagaut, Eds.), pp.331-342, Springer.
2.	Allery C., Wacławczyk M., Beghein C., Pozorski J. (2008) Analysis of low-order velocity models and their application to heavy particle dispersion. 7th Int. Symposium on Engineering Turbulence Modelling and Measurements, 4-6 June Limassol, Cyprus (CD-ROM).
3.	Wacławczyk M., Pozorski J., Minier J.P. (2008) New molecular transport model for FDF/LES of turbulence with passive scalar. Flow, Turbulence and Combustion 81, 235-260.
4.	Jarzyna H. (2008) How to divide the global resistance change into the components related to the pushing propeller and the pulling propeller of the double-ended ship. Polish Maritime Research 2(56), 12-14.
5.	Koronowicz T., Krzemianowski Z., Szantyr J. (2008) Numerical determination of the propeller design velocity field including scale effect and rudder influence. 11th Numerical Towing Tank Symposium, 7-9 September, Brest (France).

1.	Koronowicz T., Szantyr J., Chaja P. (2007) A computer system for the complete design of ship propellers. XVII Int. Conerence on Hydrodynamics in Ship Design, Polanica-Zdrój, 19-21 September 2007.
2.	Oberlack M., Wacławczyk M. (2007) On the extension of Lie group analysis to functional differential equations. Archives of Mechanics, Vol. 58, 597-618.
3.	Pozorski J., Łuniewski M. (2007) LES with subgrid-scale particle modelling in turbulent channel flow. 6th International Conference on Multiphase Flow, 9-13 July 2007, Leipzig.
4.	Pozorski J., Wacławczyk T., Łuniewski M. (2007) LES of turbulent channel flow and heavy particle dispersion. Journal of Theoretical and Applied Mechanics, Vol. 45, 643-657.
5.	Wacławczyk T., Koronowicz T. (2007) Remarks on predictions of wave drag using VOF method with interface capturing approach. XVII Int. Conerence on Hydrodynamics in Ship Design, Polanica-Zdrój, 19-21 September 2007.
6.	Pozorski J., Wacławczyk T., Marchioli C., Soldati A. (2007) DNS, a priori LES and LES of dispersed near-wall turbulent flows. Science and Supercomputing in Europe: report 2006, str.433-437. CINECA, Bologna.
7.	Pozorski J., Łuniewski M. (2007) Modelowanie przepływów turbulentnych z fazą dyspersyjną w metodzie dużych wirów. I Kongres Mechaniki Polskiej, 29-31 sierpnia.
8.	Wacławczyk M. (2007) Modelling of near-wall turbulence by means of Probability and Filtered Density Function methods. Turbulence 12, 181-187.
9.	Wacławczyk M., Pozorski J. (2007) Modelling of near-wall turbulence with the large-eddy velocity modes. Journal of Theoretical and Applied Mechanics, 45, 705-725.
10.	Wacławczyk T., Gemici O.C., Schaeffer M. (2007) Novel high-resolution scheme for interface capturing in multi-phase flow. 6th Int. Conference on Multiphase Flow, 9-13 July 2007, Leipzig.
11.	Koronowicz T., Krzemianowski Z. (2007) Investigation of influence of screw propeller operation on water flow aroud the stern part of the ship. Polish Maritime Research 14, 3-9.
12.	Jarzyna H. (2007) Selection of the most suitable method to split the resistance increment into components related to individual propellers of double-ended ferry. Archives of Civil and Mechanical Engineering Quarterly (Wrocław) Vol. VII, No. 3.
13.	Wacławczyk T., Koronowicz T. (2007) Remarks on predictions of wave drag using VOF method with interface capturing approach. XVII Int. Conf. on Hydrodynamics in Ship Design, Polanica Zdrój, 19-21 September 2007.
14.	Wacławczyk T., Koronowicz T. (2007) Modelling of the flows with sharp interfaces using Volume of Fluid (VOF) method. Conf. Topical Problems of Fluid Mechanics. Intitute of Thermomechanics AS CR, Prague, February 22-24.

Selected publications of the Laboratory of Multiphase Flow

2006
2005
2004
2003
2002
2001
2000
1999
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1997
1996
1995
1994
1993
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1988
1987

1.	Oberlack M., Wacławczyk M. (2006) On the extension of Lie group analysis to functional differential equations. Materiały koneferencyjne XVII KKMP, Bełchatów 17-21 IX.
2.	Peirano E., Chibbaro S., Pozorski J., Minier J.P. (2006) Mean-field/PDF numerical approach for polydispersed turbulent two-phase flows. Prog. Energy Combust. Sci 32, 315-371.
3.	Pozorski J., Minier J.P. (2006) Stochastic modelling of conjugate heat transfer in near-wall turbulence. Int. J. Heat Fluid Flow 27

1.	Kardaś D., Golec S. (2005) Flow Characteristics of a low NOx emission burner. Task Quarterly 9, 65-79.
2.	Kardaś D. (2005) Evolution of transient wave described by hyperbolic equations. Int. Colloquium "Physics of Shock Waves, Combustion, Detonation and Non-Equilibrium Processes", Mińsk 14-19.11.2005.
3.	Kardaś D. (2005) Two-equations of Simple Non-Equilibrium Fluid Flow Model. XIX International Symposium on Combustion Processes, Minsk, November 2005.
4.	Kardaś D., Cenian A. (2005) Numerical Simulation of Transient Air-Methane Mixture Combustion in a Closed Combustion Chamber. XIX International Symposium on Combustion Processes, Wisła, 30 August - 2 September 2005.
5.	Łuniewski M. (2005) Zastosowanie termodynamiki rozszerzonej do modelowania ośrodków pęcherzykowych para-ciecz. Zeszyt Naukowy IMP PAN 540/1499/2005.

1.	Pozorski J., Wacławczyk M., Minier J.P. (2004) Scalar and joint velocity-scalar PDF modelling of near-wall turbulent heat transfer. Int. J. Heat Fluid Flow 25, 884-895.
2.	Pozorski J., Apte S., Raman V. (2004) Filtered particle tracking for dispersed two-phase turbulent flows. Proceedings of the Summer Program 2004, Center for Turbulence Research, Stanford University, pp. 329-340.
3.	Wacławczyk M., Pozorski J., Minier J.P. (2004) PDF computation of turbulent flows with a new near-wall model. Phys. Fluids 16, 1410-1422.
4.	Wacławczyk M., Pozorski J. (2004) Conjugate heat transfer modelling using the FDF approach for near-wall scalar transport coupled with the POD method for flow dynamics. In: Advances in Turbulence X (Eds. H.I. Andersson, P.A. Krogstadt), pp.253-256. CIMNE, Barcelona.

1.	Bilicki Z., Badur J. (2003) A thermodynamically consistent relaxation model for turbulent binary mixture undergoing phase transition. J. Nonequil. Thermodyn. 28, 311-340.
2.	Kardaś D., Cenian A. (2003) 2D numerical model of methane/air combustion. XVIII Symp. On Combusion Processes, (Proc. 100-101), Ustroń 2-5.09.2003.
3.	Kardaś D., Falkowska K. (2003) Reacting flow of hydrogen chloroide and ammonia in experimental and numerical modellling. J. Thermal Sci. 12, 188-192.
4.	Pozorski J., Wacławczyk M., Minier J.P. (2003) Probability density function computation of heated turbulent channel flow with the bounded Langevin model. J. Turbul. 4, art. nr 011, pp. 1-23.
5.	Pozorski J., Wacławczyk M., Minier J.P. (2003) Full velocity-scalar probability density function computation of heated channel flow with wall function approach. Phys. Fluids 15, 1220-1232.

1.	Bilicki Z., Giot M., Kwidzinski R. (2002) Fundamentals of two-phase flow by the method of irreversible thermodynamics. Int. J. Multiphase Flow 28 1983-2005.
2.	Bis Z., Nowak W., Rusiński E., Andrzejczyk M., Leszczyński M., Kardaś D., Walkowiak R., Jabłoński J. (2002) Modyfikacja cyklonów w kotłach cyrkulacyjnych w Elektrowni Turów. Konf. Nauk.-Techn. Energetyka 2002 ITCiMP Pol. Wrocławskiej, 105-112.
3.	Pozorski J., Wawreńczuk A. (2002) SPH computation of incompressible viscous flows. J. Theor. Appl. Mech. 40, 917-937.
4.	Pozorski J., Sazhin S., Wacławczyk M., Crua C., Kennaird D.A., Heikal M. (2002) Spray penetration in a turbulent flow. Flow, Turbul. Combust. 68, 153-165.
5.	Wacławczyk M., Pozorski J. (2002) Two-point velocity statistics and the POD analysis of the near-wall region in a turbulent channel flow. J. Theor. Appl. Mech. 40, 895-916.
6.	Wacławczyk M., Pozorski J. (2002) Wavelet analysis of near-wall region in turbulent channel flow. Turbulence 8-9, 113-130.
7.	Walkowiak R., Jabłoński J., Bis Z., Nowak W., Andrzejczyk M., Kardaś D., Rusiński E. (2002) Poprawa skuteczności separacji cyklonów w kotle CFB w Elektrowni Turów. Zesz. Nauk. Pol. Opolskiej 2880/2002, 653-660.

1.	Bilicki Z. (2001) Extended irreversible thermodynamics applied to two-phase systems. Archives of Thermodynamics 22, 71-88.
2.	Bilicki Z. (2001) Wave phenomena in bubbly liquid-vapour mixture (review). ZAMM 81, S155-S158.

1.	Bukasa T., Pozorski J., Minier J.P. (2000) PDF computation of thermal mixing layer in grid turbulence, In: Advances in Turbulence VIII (Ed. C. Dopazo), CIMNE, Barcelona, pp.219-222.
2.	Kardaś D. (2000) Experimental and numerical investigation of swirling flow structure. Topical problems of Fluid Mechanics 2000, Institute of Thermomechanics AS CR, Prague, 16 February 2000.
3.	Kardaś D., Kulikowicz W., Janczewski J. (2000) Air curtain in the modernised medium-power boiler with low emission burners. Proceedings of the 5th Europen Conf. Industrial Furnaces and Boilers, Espinho-Porto, Portugal, 11-14.04.2000.

1.	Janczewski J., Kardaś D., Kledzik T., Zonenberg K. (1999) Doświadczenia w zakresie przeciwdziałania korozji siarkowej kotłów op-230 z palnikami niskoemisyjnymi. Biuletyn Informacyjny, Polskie Towarzystwo Elektrociepłowni Zawodowych, Marzec 1999, 27-30.
2.	Kardaś D., Gardzilewicz A., Marcinkowski S. (1999) CFD calculations of steam exhaust hood. International Conference SYMKOM'99, Arturówek-Łódź, October 5-8, Cieplne Maszyny Przepływowe 15, Politechnika Łódzka.
3.	Minier J.P., Pozorski J. (1999) Wall boundary conditions in PDF methods and application to a turbulent channel flow. Phys. Fluids 11, 2632-2644.
4.	Pozorski J. (1999) Computation of plane turbulent flow using probability density function method. J. Theor. Appl. Mech. 37, 3-11.
5.	Pozorski J., Minier J.P. (1999) PDF modeling of dispersed two-phase turbulent flows. Phys. Rev. E 59, 855-863.

1.	Bilicki Z., Kardaś D., Michaelides E.E. (1998) Relaxation models for wave phenomena in liquid-vapour bubble flow in channels. J. Fluids Engng. 120, 369-377.
2.	Bilicki Z., Badur J. (1998) Some problems in modelling of turbulence of two-phase flow. Turbulence 4, 33-54.
3.	Kardaś D., Kwidziński R., Pribaturin N. (1998) Experimental investigation of structure of stationary shock wave and its interaction with transient impulse of pressure in two-phase flow. 3rd International Conference on Multiphase Flow, Lyon, France, 8-12 June 1998
4.	Pozorski J. (1998) Modelling of the bubble behaviour and cavitation inception in turbulent flow. ASME FED Summer Meeting, Washington, 21-25 June 1998, Proceedings on CD-ROM, FEDSM98-5031.
5.	Pozorski J., Minier J.P. (1998) On the Lagrangian turbulent dispersion models based on the Langevin equation. Int. J. Multiphase Flow 24, 913-945.
6.	Pozorski J. (1998) A derivation of the kinetic equation for dispersed particles in turbulent flows. J. Theor. Appl. Mech. 36, 31-46.

1.	Banaszkiewicz M., Kardaś D. (1997) Two nonequilibrium relaxation model for critical flash-ing flow. GAMM Conference, Regensburg, 24-27 March 1997
2.	Banaszkiewicz M., Kardaś D. (1997) Numeryczne obliczenia nierównowagowych przepływów mieszaniny wody i pary. V Ogólnopolska Konferencja Przepływów Wielofazowych, Gdańsk, 15-17 październik 1997
3.	Bilicki Z., Kwidziński R. (1997) Thermodynamic and mechanical nonequilibrium in flashing flow with a shock wave in liquid-vapour mixture. J. Theor. Appl. Mech. 2, 263-284.
4.	Bilicki Z., Michaelides E.E. (1997) Thermodynamic nonequilibrium in liquid-vapour flows. J. Nonequil. Thermodyn. 22, 99-109.
5.	Minier J.P., Pozorski J. (1997) Derivation of a PDF model for turbulent flows based on principles from statistical physics. Phys. Fluids 9, 1748-1753.

1.	Banaszkiewicz M., Kardaś D. (1996) Two-phase flows in converging-diverging chanels - the BNL experiment. Archives of Thermodynamics 17, 49-80.
2.	Bilicki Z. (1996) Thermodynamic nonequilibrium in two-phase system - a continuum with an internal structure. Archives of Thermodynamics 17, 109-134.
3.	Bilicki Z., Kwidziński R., Michaelides E.E. (1996) Effect of mechanical nonequilibrium on dissipation in condensing bubble flow. Archives of Thermodynamics 17, 25-33.
4.	Bilicki Z., Kwidziński R., Salim A. Mohammadein (1996) Evaluation of the relaxation time of heat and mass exchange in the liquid-vapour bubble flow. Int. J. Heat Mass Transfer 39, 753-759.
5.	Downar-Zapolski P., Bilicki Z., Bolle L., Franco J. (1996) The nonequilibrium relaxation model for one-dimensional flashing liquid flow. Int. J. Multiphase Flow 22, 473-483.

1.	Bilicki Z., Kardaś D. (1995) An influence of diffusion effects on numerical solution of wave propagation in liquid-vapour mixture. EUROMECH Colloquium 331, Gottingen
2.	Bilicki Z., Kardaś D. (1995) Rozwój zaburzeń w mieszaninie pary i cieczy. IX Sympozjum Wymiany Ciepła i Masy, Augustów, (Mat. Konf. Tom 1, 109-118).
3.	Bilicki Z., Kwidziński R. (1995) Viscous term in the model of two-phase bubble flow. Transactions of IFFM 99, 79-88.
4.	Kardaś D., Bilicki Z. (1995) Zbiór funkcji termodynamicznych dla obszaru metastabilnego dla wody i pary. Zeszyty Naukowe IMP PAN, 1995, 1-136.

1.	Bilicki Z., Kardaś D. (1994) Propagation of waves in two-phase liquid-vapour flow in pipes. EUROMECH 2-nd Fluid Mechanics Conf., Warszawa, 20-24 September 1994
2.	Bilicki Z., Kardaś D., Pribaturin N. (1994) Rozchodzenie się dużych zaburzeń w mieszaninie pary i wody. IV Ogólnopolska konferencja Przepływów Wielofazowych, Gdańsk, 11-13.10.1994
3.	Bilicki Z., Kestin J. (1994) Reasons for the occurrence of spurious solutions in two-phase flow codes. Nucl. Engng. Design 149, 11-15.
4.	Bilicki Z., Kestin J. (1994) Critical flow and spurious solutions. Part I. The case of a single equation. Nucl. Engng. Design 149, 17-28.
5.	Bilicki Z., Kestin J. (1994) Critical flow and spurious solutions. Part II. The case of n equations. Nucl. Engng. Design 149, 29-36.

1.	Bilicki Z., Downar-Zapolski P. (1993) Criteria of choking in nonequilibrium two-phase flow. Archives of Thermodynamics 13, 113-123.

1.	Bilicki Z., Kestin J. (1990) Physical aspects of the relaxation model in two-phase flow. Proc. R. Soc. Lond. A 428, 379-397.
2.	Bilicki Z., Kestin J., Pratt M.M. (1990) A reinterpretation of the results of the Moby Dick experiments in terms of the nonequilibrium model. J. Fluids Engng. 112, 212-217.
3.	Bilicki Z., Kestin J. (1990) Effect of thermodynamic disequilibrium on critical liquid-vapour flow conditions. in: Meier G.E.A., Thompson P.A. (Eds.), Adiabatic Waves in Liquid-Vapour Systems, Springer-Verlag, pp. 247-259.

1.	Bilicki Z., Kestin J., Pratt M.M. (1988) The effect of three closures on critical conditions in two-phase flow with unequal phase velocities. Int. J. Multiphase Flow 14, 507-517.
2.	Bilicki Z., Kestin J. (1988) Experimental investigation of certain aspects of upward vertical bubble and slug flows. Exp. Fluids 6, 455-460.

1.	Bilicki Z., Kestin J., Mikielewicz J. (1987) Two-phase downflow in a vertical pipe and the phenomenon of choking: homogeneous diffusion model. Int. J. Heat and Mass Transfer 30, 1427-1434.
2.	Bilicki Z., Dafermos C., Kestin J., Majda G., Zeng DL. (1987) Trajectories and singular points in steady-state models of two-phase flows. Int. J. Multiphase Flow 13, 511-533.
3.	Bilicki Z., Kestin J. (1987) Transition criteria for two-phase flow patterns in vertical upward flow. Int. J. Multiphase Flow 13, 283-294.