Books and chapters in books/Książki i rozdziały w książkach
 
  1. R. Białecki and W. Stanek Cumulative green-house gases (GHG) emissions as total measure of global warming potential, Chapter in Thermodynamics for Sustainable Management of Natural Resources, W. Stanek (edt) Springer, Cham, (2017).
  2. R.A. Białecki and Z. Buliński, Green's Function in Transient Heat Conduction Chapter in Encyclopedia of Thermal Stress, R.H. Hetnarski (edt) Springer, Dordrecht, Heidelberg, New York, London, (2014) pp 2070-2096
  3. R.A. Bialecki, W. Adamczyk and G. Węcel,  Heat Exchange in Oxycombustion  Chapter in  Oxycombustion in pulverized coal and fluidized bed boilers integrated with CO2 capture   W. Nowak, T. Czakiert (eds) , Publishing House of the Częstochowa University of Technology,( 2012), pp 135-186,  (in Polish)
  4. R.A. Białecki,  Discretization Methods Chapter in: Numerical Methods in Heat Transfer, Chapter in  A.J. Nowak (edt), Papierflieger, Clausthal Zellerfeld, International Studies in Science and Engineering, (2009) pp 15-48.
  5. R.A. Białecki Modelling of Thermal Radiation Chapter in: Numerical Methods in Heat Transfer,  A.J. Nowak (edt), Papierflieger, Clausthal Zellerfeld, International Studies in Science and Engineering, (2009), pp 137-164 
  6. A.J. Kassab, L.C. Wrobel, R.A. Białecki and E. Divo Boundary Element Method. Chapter in: Numerical Heat Transfer Handbook, 2nd ed. W.J. Minkowycz, E.M. Sparrow and J.Y. Murthy. J. (eds), J. Wiley & Sons, Hoboken N. Jersey, 2006, pp 125-166.
  7. A.J. Nowak, R.A. Białecki and G. Węcel Numerical Heat Transfer 2005, Proceedings of EUROTHERM Seminar 82, Gliwice-Cracow, Poland, 2005.
  8. R.A. Białecki (ed) Contemporary computational tools in power engineering, Workshop for the industry, Silesian University of Technology, Gliwice, 2004 (in Polish).
  9. R.A. Białecki, Ł. Grela and G. Węcel Interaction of radiation with other heat transfer modes. Chapter in: Coupled Field Problems, F. Aliabadi and A. Kassab (eds), WIT Press, Southampton and Boston, 2001, pp. 39-78.
  10. R.A. Białecki and Ł. Grela Application of the boundary element method to the solution of heat radiation problems. Chapter in: Modelling of Engineering Heat Transfer Phenomena vol. 2, B. Sunden and M. Faghri (eds), Computational Mechanics Publications, Southampton and Boston, 1999, pp. 249-291.
  11. A.J. Nowak, C.A. Brebbia, R.A. Białecki and M. Zerroukat (eds) Advanced Computational Methods in Heat Transfer, Proceedings of the Heat Transfer Conference, Cracow, 1998, Computational Mechanics Publications, Southampton and Boston, 1998.
  12. R.A. Białecki and Zb. Rudnicki (eds) New concepts in energy systems and processes, Proceedings of the Tempus/Phare Workshop, Joint European Project, Zakopane-Gliwice, 1997.
  13. R.A. Białecki and Zb. Rudnicki (eds) Measurement Techniques in Energy Systems and Processes, Proceedings of the Tempus/Phare Workshop, Joint European Project, Niedzica-Gliwice, 1996.
  14. R.A. Białecki Solving Heat Radiation Problems Using the Boundary Element Method, Computational Mechanics Publications, Southampton and Boston, 1993.
  15. J. Szargut (ed), R.A. Białecki, K. Kurpisz, J. Skorek and Z. Rudnicki Numerical Modelling of Temperature Fields, WNT, Warsaw, 1992 (in Polish).
  16. R.A. Białecki Solving nonlinear heat transfer problems using the Boundary Element Method, in Boundary Element Methods in Heat Transfer, C.A. Brebbia and L.C. Wrobel (eds), Chapter 4, Elsevier Applied Science, London, 1992, pp. 87-122.
  17. R.A. Białecki, R. Nahlik and A.J. Nowak Applying Boundary Integral Equations Method to heat conduction problems, in Mechanics and Computer vol. 6, R. Gutkowski (ed), Polish Scientific Publishers (PWN), Warsaw, 1986, pp. 154-205 (in Polish).
  18. St.J. Gdula, (ed), R.A. Białecki, K. Kurpisz, A.J. Nowak and A. Sucheta Heat Conduction, Polish Scientific Publishers (PWN), Warsaw, 1984 (in Polish).
Journal papers/Artykuły w czasopismach
  1. B. Melka, W. Adamczyk, M. Rojczyk ; M. Nowak, M. Gracka, Maria; A.J. Nowak, A. Golda, R. Białecki and Z. Ostrowski, Numerical investigation of multiphase blood flow coupled with lumped parameter model of outflow, International Journal of Numerical Methods for Heat and Fluid Flow, accepted September 2019
  2. W. Adamczyk, G. Kruczek, R. Bialecki, and G. Przybyła, G.  Application of different numerical models capable to simulate combustion of alternative fuels in internal combustion engine, International Journal of Numerical Methods for Heat & Fluid Flow, (2019)  https://doi.org/10.1108/HFF-03-2019-0268
  3. M. Nowak, B. Melka, M. Rojczyk, M. Gracka, A.J. Nowak ,A. Gold, W.P. Adamczyk, B. Isaac, R.A.Białecki and Z. Ostrowski The protocol for using elastic wall model in modeling blood flow within human artery, European Journal of Mechanics / B Fluids 77 (2019), pp 273-280, https://doi.org/10.1016/j.euromechflu.2019.03.009
  4. B.Melka, M.Gracka, W.Adamczyk, M.Rojczyk, A. Golda, A.J. Nowak, R.A. Białecki and Z.Ostrowski, Multiphase simulation of blood flow within main thoracic arteries of 8-year-old child with coarctation of the aorta, Heat and Mass Transfer, 54, (2018) pp 2405-2413, DOI 10.1007/s00231-017-2136-y
  5. W.P. Adamczyk, K. Myöhänen, E-U.  Hartge, J. Ritvanen, A. Klimanek, T. Hyppänen and R.A. Białecki, Generation of data sets for semi-empirical models of circulated fluidized bed boilers using hybrid Euler-Lagrange technique, Energy 143, (2018), pp 219-240, https://doi.org/10.1016/j.energy.2017.10.029
  6. W. Adamczyk, R. Bialecki, T. Kruczek and G. Moskal,  Nondestructive technique of measuring heat conductivity of thermal barrier coatings, International Journal of Heat and Mass Transfer, 111, (2017), pp. 442-450.
  7. W.P.  Adamczyk, R.A.  Bialecki, M. Ditaranto, P. Gladysz, N.E.L. Haugen, A. Katelbach-Wozniak, A. Klimanek, S. Sladek, A. Szlek and G. Wecel CFD modeling and thermodynamic analysis of a concept of a MILD-OXY combustion large scale pulverized coal boiler, Energy, http://dx.doi.org/10.1016/j.energy.2017.03.130
  8.  W. Adamczyk, R. Bialecki, M. Ditaranto, N. Haugen, A.Katelbach-Wozniak, A. Klimanek, S. Sładek, A. Szlęk and G.Węcel, A method for retrieving char oxidation kinetic data from reacting particle trajectories in a novel test facility, Fuel 212,(2017) pp 240-255.
  9. W. Adamczyk, R.A. Białecki and T. Kruczek Measuring thermal conductivity tensor of orthotropic solid bodies,  Measurement, (2017) 101, pp 93–102 http://doi.org/10.1016/j.measurement.2017.01.023 
  10. P. Kozołub, A. Klimanek, R.A. Białecki and W.P. Adamczyk, Numerical simulation of a dense solid particle flow inside a cyclone separator using the hybrid Euler–Lagrange approach, Particuology, (2017) 31,  pp 170–180 http://dx.doi.org/10.1016/j.partic.2016.09.003
  11. W.P. Adamczyk, A. Szlęk, A. Klimanek, R.A. Białecki, G. Węcel, A. Katelbach-Woźniak, S. Sładek, M. Ditaranto, N.E.L. Haugen and Ø. Langørgen, Design of the experimental rig for retrieving kinetic data of char particles, Fuel Processing Technology, (2017) 156, pp 178–184
  12. W.P. Adamczyk, A. Szlek, A. Klimanek, R.A. Bialecki, G. Wecel, A. Katelbach-Wozniak, S. Sladek, M. Ditaranto and N.E.L. Haugen, Visualization system for the measurement of size and sphericity of char particles under combustion conditions, Powder Technology 301 (2016) pp 141–152
  13. W.P. Adamczyk, A. Szlek, A. Klimanek, R.A. Bialecki, G. Wecel, A. Katelbach-Wozniak, S. Sladek, M. Ditaranto and  N.E.L. Haugen, Visualization system for the measurement of size and sphericity of char particles under combustion conditions, Powder Technology 301 (2016) pp 141– 52,  doi:10.1016/j.powtec.2016.06.004
  14. W.P. Adamczyk, R.A. Białecki and T. Kruczek, Retrieving thermal conductivities of isotropic and orthotropic materials, Applied Mathematical Modelling 40 (2016) pp 3410–3421, DOI 10.1016/j.apm.2015.10.028

  15. A. Klimanek, M. Cedzich and R. Białecki 3D CFD modeling of natural draft wet-cooling tower with flue gas injection, Applied Thermal Engineering, 91 (2015), pp. 824–833, doi:10.1016/j.applthermaleng.2015.08.095

  16. M. Rojczyk, H.R.B. Orlande, M.J. Colaço, I. Szczygieł, A.J. Nowak, R.A. Białecki, Z. Ostrowski, Inverse heat transfer problems: an application to bioheat transfer. Computer Assisted Mechanics and Engineering Sciences (2015) 22(4) pp. 365-383
  17. W. Adamczyk, P. Kozolub, A. Klimanek, R. Bialecki, M. Andrzejczyk and M. Klajny Numerical simulations of the industrial circulating fluidized bed boiler under air- and oxy-fuel combustion, Applied Thermal Engineering, 87 (2015), pp.127–136,  DOI:10.1016/j.applthermaleng.2015.04.056
  18. P. Buliński, J. Smolka, S. Golak, R. Przyłucki, L. Blacha. R. Białecki, M. Palacz and G. Siwiec, Effect of turbulence modelling in numerical analysis of melting process in an induction furnace, Archives of Metallurgy and Materials, 60 (2015), pp. 1575-1579.

  19. W. Stanek and R. Bialecki Can natural gas warm the climate more than coal?, Fuel 136 (2014) pp. 341–348

  20. A. Ryfa, R. Buczynski, M. Chabinski, A. Szlek and R.A. Bialecki: Decoupled numerical simulation of a solid fuel fired retort boiler, Applied Thermal Engineering, 73(1) (2014), p.792-802, DOI: 10.1016/j.applthermaleng.2014.08.029
  21. W.P. Adamczyk, P. Kozołub, G. Wecel, A.Klimanek, R.A. Bialecki and T.Czakiert: Modeling oxy-fuel combustion in a 3D circulating fluidized bed using the hybrid Euler-Lagrange approach. Applied Thermal Engineering,71(1) (2014) pp.266-275, DOI: 10.1016/j.applthermaleng.2014.06.063
  22. D.P.Hanak, C.Biliyok, H.Yeung and R.Bialecki, Heat integration and exergy analysis for a supercritical high-ash coal-fired power plant integrated with a post-combustion carbon capture process, Fuel, 134,(2014) pp.126–139, (2014).
  23. W.P. Adamczyk, G. Wecel., M. Klajny, P. Kozolub, A. Klimanek., R.A. Bialecki.: Modeling of particle transport and combustion phenomena in a large scale circulating fluidized bed boiler using hybrid Euler-Lagrange approach. Particuology,16, (2014) pp 29-40, available online  DOI:10.1016/j.partic.2013.10.007
  24. W. Adamczyk, F. Szelejewski, P. Kozolub, R. Białecki, T. Kruczek: CFD estimation of heat losses in thermal conductivity measurements, Computer Assisted Mechanics and Engineering Sciences 20:(3) (2013) , pp. 185-194.
  25. P. Kuczynski and R. Bialecki, Radiation heat transfer model using Monte Carlo ray tracing method on hierarchical ortho-Cartesian meshes and non-uniform rational basis spline surfaces for description of boundaries, Archives of Thermodynamics, 35(2), 2014, pp 65-92
  26. W.P. Adamczyk,A.  Klimanek, P. Kozołub, R.A. Białecki, G. Węcel, T.Czakiert: Comparison of the standard Euler-Euler and hybrid Euler-Lagrange approaches for modelling particle transport in a pilot-scale circulating fluidized bed experimental test-rig. Particuology,15, (2014), 129-137, DOI: 10.1016/j.partic.2013.06.008.
  27. T. Kruczek, W. Adamczyk and R.A. Białecki In situ measurement of heat diffusivity in anisotropic media, International Journal of Thermophysics, 34:3 (2013), pp.467-485.
  28. A. Ryfa, A. and R.A. Bialecki, The inverse reconstruction of the heat transfer coefficient for the free surface water jet, Numerical Heat Transfer, Part A, Applications 64(11) (2013) pp. 879-901.

  29. C.A. Rogers, A.J. Kassab, E.A. Divo, Z. Ostrowski and R.A. Białecki, An inverse POD-RBF network approach to parameter estimation in mechanics, Inverse Problems in Science and Engineering 20:5, (2012) pp 1-19.
  30. A. Ryfa, D. Ingham, R.A. Białecki, Direct and inverse methods for an air jet impingement, Numerical Heat Transfer, Part A: Applications: 61:7, (2012) pp. 547-568.
  31. A. Ryfa, R.A. Białecki, Retrieving the heat transfer coefficient for jet impingement from transient temperature measurements, International Journal of Heat and Fluid Flow, 32:5, (2011), pp 1024–1035.
  32. A. Ryfa; R. A. Bialecki, The heat transfer coefficient spatial distribution reconstruction by an inverse technique, Inverse Problems in Science and Engineering, 19:1, (2011), pp.117 – 126.
  33. A. Klimanek, R.A. Białecki, Z. Ostrowski, CFD two scale model of a wet natural draft cooling tower, Numerical Heat Transfer, Part A: Applications,  57:2, (2010), pp. 119-137
  34. G. Węcel, Z. Ostrowski, R. Białecki, A novel approach of evaluating absorption line black body distribution function employing proper orthogonal decomposition, Journal for Quantitative Spectroscopy and Radiative Transfer, 111:2 (2010) pp 309-317.
  35. A. Klimanek and R.A. Białecki, Solution of heat and mass transfer in counterflow wet-cooling tower fills, International Communications in Heat and Mass Transfer, 36:6, (2009), pp 547-553
  36. A. Klimanek and R.A. Białecki, A 3D CFD model of a natural draft wet-cooling tower, Archives of Thermodynamics, 30:4 (2009), pp. 119-132 
  37. A. Ryfa, R.A. Białecki, B. Facchini, L. Tarchi,. Application of the inverse analysis for boundary condition retrieval,  Inverse Problems in Science and Engineering, 17:6, (2009) pp 829 - 853.
  38. A. Klimanek, and R.A. Białecki, On a numerical model of a natural draught wet-cooling tower, Archives of Thermodynamics, 29:4 (2008),  pp 63-72.
  39. L. Wawrzonek and R.A. Białecki, Temperature in a disk brake, simulation and experimental verification. International Journal of Numerical Methods for Heat and Fluid Flow, 18:3/4 (2008), pp. 387-400.
  40. A. Klimanek, R.A. Białecki, On a Numerical Model of a Natural Draught Wet-cooling Tower, Archives of Thermodynamics,  29:4 (2008), pp. 63-72.
  41. Z. Ostrowski, R.A. Białecki and A.J. Kassab. Solving inverse heat conduction problems using trained POD-RBF network inverse method, Inverse Problems in Science and Engineering 16:1, (2008) pp. 39-54 doi:10.1080/17415970701198290.
  42. G. Wecel, R. A. Bialecki, M. Mancini, and R. Weber. Radiative Heat Transfer in Industrial Furnaces. Fortschrittsberichte der Deutschen Keramischen Gesellschaft, Verfahrenstechnik, Thermische Verfahrenstechnik. 21.(1) (2007)
  43. R. Bialecki, E. Divo and A. Kassab Reconstruction of time-dependent boundary heat flux by a BEM-based inverse algorithm, Engineering Analysis with Boundary Elements, 30 (2006), pp. 767-773.
  44. R.A. Białecki and G. Węcel BEM solution of the radiative heat transfer within natural gas fired combustion chamber, Combustion Science and Technology, 178:8 (2006) , pp. 1413-1440.
  45. M. Tanaka, A. Guzik, T. Matsumoto and R.A. Białecki An inverse estimation of multi-dimensional load distributions in thermoelasticity problems via dual reciprocity BEM, Computational Mechanics, 37:1 (2005), pp. 86-95.
  46. Z. Ostrowski, R.A. Białecki and A.J. Kassab Estimation of constant thermal conductivity by use of Proper Orthogonal Decomposition, Computational Mechanics, 37:1 (2005), pp. 52-59.
  47. R.A. Białecki, T. Burczynski, A, Długosz, W. Kuś, Z. Ostrowski Evolutionary shape optimization of thermoelastic bodies exchanging heat by convection and radiation, Computer Methods in Applied Mechanics and Engineering, 194:17 (2005), pp. 1839-1859.
  48. A. Fic, R.A. Białecki and A.J. Kassab Solving transient nonlinear heat conduction problems by Proper Orthogonal Decomposition, Numerical Heat Transfer, Part B, 48 (2005), pp. 103-124.
  49. R.A. Białecki, A.J. Kassab and A. Fic Proper Orthogonal Decomposition and modal analysis for acceleration of transient FEM thermal analysis, International Journal for Numerical Methods in Engineering, 62 (2005), pp. 774-797.
  50. R.A. Białecki and G. Węcel Solution of conjugate radiation convection problems by a BEM FVM technique, Journal for Quantitative Spectroscopy and Radiative Transfer, 84:4 (2004), pp. 539-550.
  51. M. Król and R. A. Białecki Optimization of a window frame by BEM and genetic algorithm, The International Journal of Numerical Methods for Heat & Fluid Flow, 23:5-6 (2003), pp. 565-580.
  52. R.A. Białecki, E. Divo, and A.J. Kassab Explicit calculation of smoothed sensitivity coefficients for linear problems, International Journal. for Numerical Methods in Engineering, 57:2 (2003), pp. 143-167.
  53. A.J. Nowak, R.A. Białecki, A. Fic and G. Węcel Analysis of fluid flow and energy transport in Czochralski’s process, Computers and Fluids, 32 (2003), pp. 85-95.
  54. M. Tanaka, A. Guzik, R. Bialecki, T. Matsumoto Reconstruction of multidimensional boundary condition distribution in elasticity problems using FEM-based filtering technique, Transactions of JASCOME - Journal of Boundary Element Method, 3 (2003), pp. 33-38.
  55. E. Divo, E. Steinthorsson, A.J. Kassab, and R. A. Białecki An iterative BEM/FVM protocol for steady-state multi-dimensional conjugate heat transfer in compressible flows, Engineering Analysis with Boundary Elements, 26:5 (2002), pp. 447-454.
  56. A.J. Nowak, R.A. Białecki, A. Fic, G. Węcel, L.C. Wrobel and B. Šarler Coupling of conductive, convective and radiative heat transfer in Chochralski crystal growth process, Computational Materials Science, 32 (2002), pp. 570-576.
  57. A.J. Nowak and  R.A. Białecki Numerical solution of coupled conduction-convection-radiation heat transfer problems in a continuous casting process, Stroicky Časopis Journal of Mechanical Engineering, 53:2 (2002), pp. 92-108.
  58. R.A. Białecki, E. Divo, and A.J. Kassab Unknown time dependent heat flux boundary condition reconstruction using a BEM-based inverse algorithm, Electronic Journal of Boundary Elements, 1 (2002), pp. 104-114. http://tabula.rutgers.edu/EJBE
  59. R. Cholewa, A.J. Nowak, R.A. Białecki and L.C. Wrobel Cubic Bezier splines for BEM heat transfer analysis of the 2-D continuous casting problems, Computational Mechanics, 28:3-4 (2002), pp. 282-290.
  60. R.A. Białecki, Z.P. Ostrowski, A J. Kassab, Q. Yin, and E. Sciubba Coupling FEM, BEM, and analytical solutions in steady state. Engineering Analysis with Boundary Elements, 26:7 (2002), pp. 597-611.
  61. R.A. Białecki, P. Jurgaś and G. Kuhn Dual Reciprocity BEM formulation without matrix inversion, Engineering Analysis with Boundary Elements, 26:3 (2002), pp. 205-225.
  62. J. Blobner, R.A. Białecki and G. Kuhn Boundary element solution of coupled heat conduction radiation problems in the presence of shadow zones, Numerical Heat Transfer Part B, 39 (2001), pp. 451-478.
  63. A. Fic, A.J. Nowak and R.A. Białecki Heat transfer analysis of the continuous casting process by the front tracking BEM, Engineering Analysis with Boundary Elements, 24 (2000), pp. 215-223.
  64. J. Blobner, R.A. Białecki and G. Kuhn Transient non-linear heat conduction-radiation problems: a boundary element formulation, International Journal for Numerical Methods in Engineering, 46 (1999), pp. 1865-1882.
  65. R.A. Białecki, A. Fic, Z. Rudnicki., J. Składzień and J. Skorek Wybrane metody modelowania procesów wymiany ciepła. (Selected methods of modelling of the thermal processes), Gospodarka Paliwami i Energią, 1 (1999).
  66. M. Merkel, V. Bulgakov, R.A. Białecki and G. Kuhn Iterative solution of large scale 3D BEM industrial problems, Engineering Analysis with Boundary Elements, 22 (1998), pp.183-197.
  67. R.A. Białecki, Ł. Grela Application of the Boundary Element Method in radiation, Journal of Theoretical and Applied Mechanics, 36:2 (1998), pp. 351-364.
  68. R.A. Białecki, U. Herding, O. Köhler and G. Kuhn Weakly singular 2D quadratures for some fundamental solutions, Engineering Analysis with Boundary Elements, 18 (1996), pp. 333-336.
  69. R.A. Białecki, M. Merkel, H. Mews, and G. Kuhn In- and out-of-core BEM equation solver with parallel and nonlinear options, International Journal for Numerical Methods in Engineering, 39 (1996), pp. 4215-4242.
  70. R.A. Białecki and T. Kruczek Frictional, diathermal flow of steam in a pipeline, Chemical Engineering Science, 51:19 (1996), pp. 4369-4378.
  71. V.E. Bulgakov, R.A. Białecki and G. Kuhn Coarse division transform based preconditioner for boundary element problems, International Journal for Numerical Methods in Engineering, 38 (1995), pp. 2115-2129.
  72. Ł. Grela, and R.A. Białecki Heat radiation in scattering media; integral equations and a conception of their discretization, Zeszyty Naukowe Politechniki Śląskiej, MECHANIKA, 121 (1995), pp. 125-132 (in Polish).
  73. P. Partheymüller, R.A. Białecki, and G. Kuhn Self adapting algorithm for evaluation of weakly singular integrals arising in BEM, Engineering Analysis with Boundary Elements, 14:2 (1995), pp. 285-292.
  74. R.A. Białecki and G. Kuhn BEM solution of steady state potential problems, Zeitschrift für Angewandte Mathematik und Mechanik, 74:6 (1994), pp. T499-T502.
  75. R.A. Białecki, R. Dallner and G. Kuhn Minimum distance calculation between a source point and a boundary element, Engineering Analysis with Boundary Elements, 12 (1993), pp. 211-218.
  76. R.A. Białecki, W. Łukaszek and A.J. Nowak Determination of temperature distribution in shielding system of nuclear reactor, Zeszyty Naukowe Politechniki Śląskiej, Energetyka, 117 (1993), pp. 109-127 (in Polish).
  77. R.A. Białecki Solving radiative heat transfer problems in participating media by BEM, Zeitschrift für Angewandte Mathematik und Mechanik, 73:6 (1993), pp. T773-T778.
  78. R.A. Białecki, R. Dallner and G. Kuhn New application of the hypersingular equations in the boundary element method, Computer Methods in Applied Mechanics and Engineering, 103 (1993), pp. 399-416.
  79. R.A. Białecki and G. Kuhn Boundary element solution of heat conduction problems in multizone bodies of nonlinear material, International Journal for Numerical Methods in Engineering, 36:5 (1993) pp. 799-809.
  80. R.A. Białecki, A.J. Nowak and H. Herman Applying BEM to modelling of uptaking pollutants in clouds or fog drops, Advances in Engineering Software, 14:2 (1992), pp. 157-161.
  81. R.A. Białecki and G. Kuhn Boundary element solution of nonlinear material heat conduction problems with contact resistance, Zeitschrift für Angewandte Mathematik und Mechanik, 72:6 (1992), pp. T486-T471.
  82. I. Szczygieł, A. Szlęk, R.A. Białecki and A.J. Nowak Identification of boundary surfaces in 3D Finite Element codes, Advances in Engineering Software, 14:4 (1992), pp. 155-161.
  83. R.A. Białecki, J. Skorek and St. Postrzednik Periodic temperature field in heat bridges. Heat and mass transfer problems in buildings, Wydawnictwa Politechniki Wrocławskiej, (1991), pp. 79-89 (in Polish).
  84. R.A. Białecki BEM solution of heat transfer radiation problems, Boundary Element Abstracts and Newsletters, 2:6 (1991), pp. 227-229.
  85. R.A. Białecki Solving coupled heat radiation conduction problems using the Boundary Element Method, Zeitschrift für Angewandte Mathematik und Mechanik, 71:6 (1991), pp. T596-T599.
  86. R.A. Białecki Applying the Boundary Element Method to the solution of heat radiation problems in cavities filled by a nongray emitting absorbing medium, Numerical Heat Transfer, Part A, 20 (1991), pp. 41-64.
  87. I. Szczygieł, A. Szlęk, R.A. Białecki and A.J. Nowak Identification of boundary curves in 2D Finite Element codes, Advances in Engineering Software, 13:2 (1991), pp. 73-83.
  88. R.A. Białecki and A.J. Nowak Some remarks on transformation technique for transient nonlinear problems, Engineering Analysis with Boundary Elements, 7:3 (1990), pp. 145-156.
  89. R.A. Białecki and R. Nahlik Solving nonlinear steady state potential problems in inhomogeneous bodies using the boundary element method, Numerical Heat Transfer, Part B, 16 (1989), pp. 79-96.
  90. St. Postrzednik, R.A. Białecki and A.J. Nowak Process of solid fuel self- heating; literature survey and proposals of investigations, Zeszyty Naukowe Politechniki Śląskiej, Energetyka, 96 (1988), pp. 37-70 (in Polish).
  91. R.A. Białecki Boundary Element Method in calculations of temperature fields in solids, Zeszyty Naukowe Politechniki Łódzkiej, Cieplne Maszyny Przepływowe, 97 (1988), pp. 73-100, Lecture Notes of a Summer School on Numerical Methods in Heat Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, (invited paper), (in Polish).
  92. St. Postrzednik, R.A. Białecki, A.J. Nowak, R. Scholz and E. Specht On the problem of self-heating of solid fuels (2), Oil Gas, European Magazine - formely  Erdöl Erdgas Kohle, 104:6 (1988), pp. 277-281 (in German).
  93. St. Postrzednik, R.A. Białecki, A.J. Nowak, R. Scholz and E. Specht On the problem of self-heating of solid fuels (1), Oil Gas, European Magazine formely Erdöl Erdgas Kohle, 104:2 (1988), pp. 79-85 (in German).
  94. A.J. Nowak, R.A. Białecki and K. Kurpisz Evaluating eigenvalues for boundary value problems of heat conduction in rectangular and cylindrical coordinate systems, International Journal for Numerical Methods in Engineering, 24:2 (1987), pp. 419-445.
  95. St.J. Gdula, R.A. Białecki, K. Kurpisz, A.J. Nowak and A. Sucheta Mathematical model of steady state heat transfer in blast furnace hearth and bottom, Transactions of the Institute of Steel and Iron of Japan, 25:5 (1985), pp. 308-385.
  96. R.A. Białecki, R. Nahlik and M. Łapkowski Applying the Boundary Element Method to electrochemical calculations of primary current distribution, Electrochimica Acta, 29:7 (1984), pp. 905-910.
  97. R. Nahlik and R.A. Białecki A new method of numerical evaluation of singular integrals occurring in two dimensional BIEM. Applied Mathematical Modelling, 7:1 (1983), pp. 169-172.
  98. R.A. Białecki and A.J. Nowak Boundary value problems for nonlinear material and nonlinear boundary conditions, Applied Mathematical Modelling, 5 (1981), pp. 417-421.
  99. St.J. Gdula, R.A. Białecki and A. Sucheta The inversion of the equation of state for real gases p=p(T,v) to the form v=v(T,p), Zeszyty Naukowe Politechniki Śląskiej, Energetyka, 69 (1978), pp. 19-38 (in Polish).
  100. St.J. Gdula, R.A. Białecki and A. Sucheta Method of measuring thermal conductivity of the soil, Zeszyty Naukowe Politechniki Śląskiej, Energetyka, 67 (1978), pp. 33-41 (in Polish).
  101. St.J. Gdula, R.A. Białecki, K. Kurpisz, A.J. Nowak and A. Sucheta Determining isothermal lines in a blast furnace hearth, Zeszyty Naukowe Politechniki Śląskiej, Energetyka, 67 (1978), pp. 23-31 (in Polish).
  102. R.A. Białecki and A. Sucheta Determining steady state temperature field and heat fluxes in a blast furnace plate cooler, Zeszyty Naukowe Politechniki Śląskiej, Energetyka, 57 (1976), pp. 57-71 (in Polish).
Refereed conference papers/Recenzowane artykuły konferencyjne
  1. W. Adamczyk, Z. Ostrowski and R. Białecki, Novel nondestructive technique of measurement of heat conductivities based on active thermography. 5th International Conference on Inverse Problems, Rzeszów Kombornia, 22-24 May 2019, Eccomas thematic conference. pp 9-10. \
  2. Z. Ostrowski, W. Adamczyk and R. Białecki, Advances in non-destructive method and algorithm of estimation of solid samples heat diffusivity by means of IHTP solution, 5th International Conference on Inverse Problems, Rzeszów Kombornia, 22-24 May 2019, Eccomas thematic conference. pp 41-42
  3. W. Adamczyk, R. Bialecki, T. Kruczek, Z. Ostrowski, Nondestructive measurement of thermal diffusivity of bodies of arbitrary shape, 14th U.S. National Congress on Computational Mechanics July 17-20, 2017, Montreal, Quebec, Canada, http://14.usnccm.org/sites/default/files/ABSTRACTS%20A-L.pdf, pp 68
  4. R.A. Białecki, T. Kruczek, A. Ryfa, Z. Ostrowski and W. Adamczyk,  Non-destructive technique of measuring conductivities in objects of arbitrary shapes.  4th International Conference on Inverse Problems in Mechanics of Structure and Materials IPM2017, Book of abstracts,  T. Burczyński and L Ziemiański eds, 31st May 2nd June 2017, Rzeszów Krasiczyn, Poland , pp 11-12.,
  5. G. Moskal, R. Swadźba, R. Białecki, T. Kruczek and W. Adamczyk,  S/TEM and TEM investigations of thermal barrier coatings based on Gd2Zr2O7 zirconate, Characterization of WC-Co coating modified by nano-sized TiC addition using electron microscopy methods, Conference Proceedings of the International Thermal Spray Conference and Exhibition – ITSC 2017  in Dusseldorf/Germany, June 7 – 9 2017, DVS-Berichte Volume 336 , pp. 784-788.
  6. G. Kokot, A. Jasik, G. Moskal, R. Białecki W. Adamczyk and T. Kruczek, Coupled thermo-mechanical analysis of the ceramic thermal barrier coatings, Conference Proceedings of the International Thermal Spray Conference and Exhibition – ITSC 2017  in Dusseldorf/Germany, June 7 – 9 2017, DVS-Berichte Volume 336 , pp. 794-798.
  7. D. Niemiec, G. Moskal, R. Białecki, W. Adamczyk, T. Kruczek and K. Szymański, Comparison of oxidation resistance and TGO zone morphology of NiCrAlY plasma sprayed coating and sintered alloy, Conference Proceedings of the International Thermal Spray Conference and Exhibition – ITSC 2017 in Dusseldorf/Germany, June 7 – 9 2017, DVS-Berichte Volume 336 , pp. 951-955.

  8. W. Adamczyk, R. Białecki, M. Ditaranto, N.E.L. Haugen, A. Katelbach Woźniak, A. Klimanek, S. Sładek, A. Szlęk and G. Węcel, Experimental study on coal chars oxy-combustion in a novel furnace for solid fuels characterization, Proceedings of the World Congress on Momentum, Heat and Mass Transfer (MHMT’16)
    Prague, Czech Republic – April 4 – 5, 2016, DOI: 10.11159/csp16.111

  9. A. Ryfa, W.P. Adamczyk, Z. Buliński , Z. Ostrowski and R.A. Białecki, Retrieving thermal conductivity of the anisotropic solid body, Inverse Problems Symposium, 5-7 June Virginia Military Institute, 2016.
  10. G. Kruczek, W.P. Adamczyk, G. Przybyła, R.A. Białecki, Biogas and methane combustion in a gasoline internal combustion engine, 7th European Thermal-Sciences Conference, 19-23 June, Krakow, Poland, 2016, Book of Abstracts, p 27
  11. W.P. Adamczyk, R.A. Bialecki, A. Klimanek, A. Szlek, G. Wecel, A. Katelbach-Wozniak, S. Sladek, M. Ditaranto and  N. Erland L. Haugen, Experimental rig for gathering kinetic data of reacting particles under MILD combustion, Coal TechnologiesAssociates, The 39th International Technical Conference on Clean Coal & Fuel Systems, Clearwater, USA, 2016
  12. W. Adamczyk, R.A. Białecki, M. Ditaranto, N.E.L Haugen, A. Katelbach-Woźniak, A. Klimanek, S. Sładek, A. Szlęk and G. Węcel, A method of retrieving char oxidation kinetic data from reacting particle trajectories in a novel test facility under oxy combustion conditions, Coal Technologies Associates, The 39th International Technical Conference on Clean Coal & Fuel Systems, Clearwater, USA, 2016
  13. W.P. Adamczyk, A. Katelbach-Wozniak, S. Sładek, A. Klimanek, A. Szlęk, R.A. Białecki, G. Wecel, M. Ditaranto and  N. Erland L. Haugen, Development of the experimental rig for gathering coal kinetic data under mild combustion process, 7th European Thermal-Sciences Conference, 19-23 June, Krakow, Poland, 2016, book of abstracts, pp 95
  14. R.A. Białecki, W.P. Adamczyk, A. Katelbach-Wozniak, S. Sładek, A. Klimanek, A. Szlęk, G. Wecel, M. Ditaranto and  N. Erland L. Haugen, Development of the numerical model of the pulverized coal boiler operated under mild combustion process, 7th European Thermal-Sciences Conference, 19-23 June, Krakow, Poland, 2016, Book of Abstracts pp 132
  15. W. Adamczyk, R. Białecki and T. Kruczek, Nondestructive measurement of anisotropic heat conductivity tensor, IX International Conference on Computational Heat and Mass Transfer, ICCHMT 2016 23-26 May 2016, Cracow, Poland, 2016, pp 117-118, 
  16. W. Adamczyk, R.A. Białecki and T. Kruczek,  Retrieving thermal conductivities of solid bodies, Numerical Heat Transfer 2015, Eurotherm Seminar 109, Book of abstracts, A.J. Nowak, J. Banaszek and B. Sarler (eds)  , Warsaw, September 27-30, 2015, pp 79-80
  17. W. Adamczyk, R. Białecki, M. Ditaranto, N.E. Haugen, A. Katelbach-Woźniak, A. Klimanek, S. Sładek, A. Szlęk and G. Węcel, Experimental facility for solid fuels characterization, Book of Abstracts, XXII International Syposium on Combustion Processes, September 22-25, 2015, Hucisko, Poland , p. 3
  18. S. Sładek, R.K. Wilk, G. Węcel, R. Białecki, P. Kozołub, W. Adamczyk and Z. Ostrowski Numerical modeling of pulverized coal oxy-combustion using OpenFOAM software, Book of Abstracts, XXII International Syposium on Combustion Processes, September 22-25, 2015, Hucisko, Poland, pp. 179-180
  19. G. Węcel, W. Adamczyk, A. Klimanek, S. Sładek, A. Katelbach-Woźniak, R.A. Białecki and A. Szlęk, Designing of the experimental rig for testing coal char combustion using CFD tools, Book of Abstracts, XXII International Syposium on Combustion Processes, September 22-25, 2015, Hucisko, Poland, pp. 207-208. 
  20. W. Adamczyk, R. Białecki, M. Ditaranto, N. Haugen, A. Katelbach-Woźniak, A. Klimanek, P. Kozołub, A. Szlęk and G. Węcel, Laminar flow chamber for pulververized fuel characterization, 18 International Flame Research Foundation Conference, Freising, June 1-3, 2015. Printed abstract and full version on flash disk, ISBN 978-88-908091-3-2. http://www.ifrf.net/page/conference-notes/proceedings-conferences
  21. W. Adamczyk, R.A. Białecki and  T. Kruczek, Inverse, non-destructive technique of retrieving conductivity of orthotropic materials, 3rd Polish Congress of Mechanics and 21st International Conference on Computer Methods in Mechanics, Gdańsk, September 8-11, 2015, M.Kleiber et al editors, pp 275-276
  22. W. Adamczyk, R. Białecki, M. Ditaranto, N. Haugen, A. Katelbach-Woźniak, A. Klimanek, P. Kozołub, A. Szlęk and G. Węcel, Laminar flow chamber for pulververized fuel characterization, 18 International Flame Research Foundation Conference, Freising, June 1-3, 2015. Printed abstract and full version on flash disk, ISBN 978-88-908091-3-2. http://www.ifrf.net/page/conference-notes/proceedings-conferences
  23. W. Nowak and R. Białecki, Polish national oxyflame, 18 International Flame Research Foundation Conference, Freising, June 1-3, 2015, 18 International Flame Research Foundation Conference, Freising, June 1-3, 2015. Printed abstract and full version on flash disk ISBN 978-88-908091-3-2. http://www.ifrf.net/page/conference-notes/proceedings-conferences
  24. R. Białecki, W. Adamczyk and P. Kozołub, Numerical simulation of the oxy- and air fueled combustion process within industrial CFB boiler. 18 International Flame Research Foundation Conference, Freising, June 1-3, 2015, 18 International Flame Research Foundation Conference, Freising, June 1-3, 2015. Printed abstract and full version on flash disk ISBN 978-88-908091-3-2. http://www.ifrf.net/page/conference-notes/proceedings-conferences
  25. W. Adamczyk, P. Kozołub, G. Węcel and R.Białecki, Modelling of heat and mass transfer process within circulating fluidized bed. Thermodynamics and heat transfer in thermofluid research, R. Smusz ed. , Proc. 22th of Thermodyn. Meeting,  Polanczyk,  Printing House of the Rzeszów University of Technology, Rzeszów 2014, pp 11-26.
  26. R. Białecki, W. Adamczyk, P. Kozołub,  G. Węcel, A. Klimanek and M. Klajny,  CFD model of an industrial circulating fluidized bed boiler. Third International Conference on Computational Methods for Thermal Problems, ThermaComp2014,  pp 449-454, Lake Bled, Slovenia, 2014.
  27. R.A. Białecki, W.P. Adamczyk, A. Klimanek, P. Kozołub, G. Węcel and T. Czakiert, Modelling Oxy-Combustion Process in a Small Scale Facilities of a Circulating Fluidized Bed. V Conference on Computational Methods for Coupled Problems in Science and Engineering, Ibiza, Spain, 2013.
  28. W.P. Adamczyk, R.A. Bialecki, A. Klimanek, P. Kozołub, G. Węcel and M. Klajny, Modeling  particle transport phenomena in large scale CFB boiler. Coal Technologies Associates, The 38th International Technical Conference on Clean Coal & Fuel Systems, Clearwater, USA, 2013.
  29. A. Ryfa and R.A. Białecki, Application of the inverse analysis for retrieval of the heat transfer coefficient for free surface water jet impingement, Proceedings of 20th European Conference on Computational Fluid Dynamics - ECCOMAS 2012, Viena, September 10-14, 2012 (on CD).
  30. W. Adamczyk, R. Bialecki, A. Klimanek, P. Kozolub, G. Wecel, S. Sladek, Z. Ostrowski, T. Czakiert, The oxy-combustion modelling in CFB using multiphase approach, XX Polish Fluid Mechanics Conference, Polish Academy of Sciences, pp 89-90, Gliwice, Poland, September 2012.
  31. P. Kozołub, W. Adamczyk, R. Białecki, G. Węcel, Numerical estimation of the particle collection efficiency of a cyclone separator, XX Polish Fluid Mechanics Conference, Polish Academy of Sciences, pp 51-52, Gliwice, Poland, September 2012.
  32. W. Adamczyk, T. Kruczek, R. Białecki, In situ measurements of anisotropic heat conductivity, European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012) Vienna, Austria, September, 2012, CD ROM.
  33. P. Kozołub, W. Adamczyk, R. Białecki, G. Wecel, Numerical simulation of the cyclone separator of the pilot-scale circulating fluidized bed installation, ECCOMAS Special Interest Conference, Numerical Heat Transfer 2012, pp 101-102, Wrocław, Poland, September 2012.
  34. T. Kruczek, W. Adamczyk, R. Białecki, In situ measurements of material heat conductivity,  ECCOMAS Special Interest Conference, Numerical Heat Transfer 2012, pp 177-178, Wrocław, Poland, September 2012, Poland.
  35. A. Ryfa, R. Bialecki, P. Kozołub, W. Adamczyk, G. Wecel, Numerical simulations of the NOx emisssion from a pulverized coal boiler, ECCOMAS Special Interest Conference, Numerical Heat Transfer 2012, pp. 73-74, Wrocław September 2012, Poland.
  36. W. Adamczyk, R. Bialecki, P. Kozolub, A. Ryfa, G. Wecel, G. Serwatka, Numerical simulations of the PC boiler equipped with complex swirling burner, ECCOMAS Special Interest Conference, Numerical Heat Transfer 2012, pp. 69-70, Wrocław September 2012, Poland.
  37. W. Adamczyk, R. Białecki, A. Klimanek, P. Kozołub, G. Węcel, S. Sładek, Z. Ostrowski, T. Czakiert, Modeling of particle transport phenomena and combustion in CFB using combination of Lagrangian and Euler-Euler approaches, ECCOMAS Special Interest Conference, Numerical Heat Transfer 2012, pp. 99-100, Wrocław September 2012, Poland
  38. W. Adamczyk, R. Białecki, A. Klimanek, P. Kozołub, G. Węcel, S. Sładek, Z. Ostrowski, T. Czakiert, Modeling of particle transport phenomena in CFB using dense discrete phase model, 21st International Conference on Fluidized Bed Combustion, Volume 2, pp. 994-1001, Naples, Italy, June 2012.
  39. W. Adamczyk, R. Białecki, A. Klimanek, P. Kozołub, G. Węcel, S. Sładek, Z. Ostrowski, T. Czakiert, Modeling of the combustion process in CFB using combination of Lagrangian and Euler-Euler models, International Conference on Combustion and Energy Utilization (11th ICCEU), pp. 121, Coimbra, Portugal, May 2012.
  40. W. Adamczyk, P.Kozołub, G. Węcel, R. Białecki, Two mode air and oxi-combustion PCB coal boiler. XIII Research and Technology Conference Energy Engineering Forum, Szczyrk, Poland, 25-27 April 2012 (in Polish)
  41. A. Ryfa, R.A. Białecki, Reconstruction of the heat transfer coefficient for the free surface liquid jet impingement, Proceedings of Inverse Problems Symposium (on CD), Michigan State University, USA, June10-12, 2012,
  42. A. Ryfa, T. Kruczek, R.A. Białecki, Application of the infrared thermography for determination of the heat transfer coefficient, Proceedings of 17th Winter Workshop on Photoacoustics and Thermal Wave Methods, p. 6, Szczyrk, Poland, 2012,
  43. W. Adamczyk, R.A. Białecki, A. Klimanek, P. Kozołub, G. Węcel, S. Sładek, Z. Ostrowski, T. Czakiert, Modeling of the combustion process in CFB using combination of Lagrangian and Euler-Euler models, International Conference on Combustion and Energy Utilization (11th ICCEU), Coimbra Portugal, p 121. May 2012.
  44. A. Klimanek  and R.A. Białecki, Numerical modeling of wet natural draft cooling towers with flue gas discharge, Proceedings of  the Research & Development in Power Engineering Conference, Warsaw University of Technology, December 2011, pp145-152, (in Polish).
  45. W. Stanek and R.A. Białecki, Can natural gas warm the climate more than coal? CaReTech 2011 Proceedings of the International Conference on Carbon Reduction Technologies, Hucisko-Gliwice, pp 38-39, 2011.
  46. A. F. Klimanek, W. Adamczyk, A. Szlęk and R.A. Białecki, Numerical modeling of circulating fluidized beds using multi-fluid approach, Thermodynamics in Science and Technology - Proc. of 1st Int. Congress on Thermodynamics, pp. 585-592, 2011.
  47. W. Adamczyk, R..A. Białecki, A.F. Klimanek and G. Węcel, Implementationa of the direct quadrature method of moments in ANSYS FLUENT code for population balance modeling, Thermodynamics in Science and Technology - Proc. of 1st Int. Congress on Thermodynamics, pp. 543-550, 2011,
  48. A. Ryfa and R.A., Białecki., The analysis of the jet impingement heat transfer, Thermodynamics in Science and Technology - Proc. of 1st Int. Congress on Thermodynamics, pp 252-259, 2011,
  49. P. Kozołub, R.A. Białecki, G. Węcel, Numerical simulation of the gas and particle flow inside a cyclone separator. Thermodynamics in Science and Technology - Proc. of 1st Int. Congress on Thermodynamics, pp. 608-614,  2011,
  50. A.F. Klimanek and R.A. Bialecki Mass, Heat and Momentum Transfer in Natural Draft Wet Cooling Tower with Flue Gas Discharge. Proc. of Coupled Problems 2011, Computational Methods for Coupled Problems in Science and Engineering IV, E. Onate, M. Papadrakakis and B. Schrefler (eds.), International Center for Numerical Methods in Engineering, Barcelona (2011) pp 15 full version on CD.
  51. A. Ryfa and R.A. Białecki, Heat transfer coefficient retrieval in the impingement jet heat transfer, Proceedings of 19th International Conference on Computer Methods in Mechanics, pp 435-436, 2011, (full paper  on CD),
  52. A. Ryfa and R.A. Białecki, Inverse stepping algorithm in the impingement heat exchange, Proceedings of 2nd International Conference on Inverse Problems in Mechanics of Structures and Materials, pp 93-94, 2011.
  53. Z. Ostrowski, R.A. Białecki, M. Muster and R. Weber: Reconstruction of Heat Transfer Coefficient at Nucleate and Film Boiling using Proper Orthogonal Decomposition, Proc. 7th International Conference on Inverse Problems in Engineering, ICPIE 2011,  A.J. Kassab and E.A. Divo, edts, May 4-6, 2011, Orlando Florida, pp 120-125. Keynote address.
  54. C.A. Rogers, A. Kassab, E. Divo, Z. Ostrowski and R. Białecki: An inverse POD-RBF approach to parameter estimation in mechanics. Proc. 7th International Conference on Inverse Problems in Engineering, ICPIE 2011,  A J. Kassab and E.A. Divo, edts, May 4-6, 2011, Orlando Florida, pp 215-220.
  55. W. Adamczyk, R.A. Białecki and R. Eggels: Combustionmodelling using a combination of premixed and non-premixed flamelets. Proc. XIV Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Międzyzdroje, pp.23-30, 2010 (in Polish)
  56. A. Klimanek and R.A. Białecki:  CFD analysis of a natural draft wet-cooling tower with varying fill depth and water mass flow rate,  Proc. XIV Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Międzyzdroje, pp. 241-254, 2010 (in Polish)
  57. A. Ryfa and R.A. Białecki: Marching in time heat transfer coefficient reconstruction technique, Proc. XIV Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Międzyzdroje, pp.473-480, 2010 (in Polish)
  58. G. Węcel, Z. Ostrowski and R.A. Białecki, Evaluation of the cumulated gas absorption coefficient using the Proper Orthogonal Decomposition method, Proc. XIV Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Międzyzdroje, pp. 579-586, 2010 (in Polish)
  59. C.A. Rogers, A. Kassab, E. Divo, Z. Ostrowski and R.A. Bialecki: Parameter Estimation in Heat Transfer and Elasticity using Trained POD-RBF Network. Proc. Inverse Methods 2010, Inverse Problems Symposium. June 6-8, 2010 Michigan State University, Abstract on CD.
  60. Z. Ostrowski, R. A. Bialecki, A. Kassab, M. Muster and  R. Weber, Inverse POD-RBF solution for time and spatial distribution of film coefficient for ball immersed in cooling water, Proc. IV European Conference on Computational Mechancs, Paris, France, May, 2010, Abstract on CD
  61. A. Klimanek and R.A. Białecki, A 3D CFD model of a natural draft wet-cooling tower, Proc. IV European Conference on Computational Mechancs, Paris, France, May, 2010, Abstract on CD
  62. A. Ryfa and R.A. Białecki, Inverse technique for the estimation of the heat transfer coefficient, Proceedings of 5th International Conference on Inverse Problems: Modeling and Simulation, pp 200-201, 2010
  63. A. Ryfa and R.A. Białecki, Inverse and direct techniques of the heat transfer coefficient retrieval in impingement jet heat exchange, Proceedings of Fifth European Conference on Computational Fluid Dynamics - ECCOMAS 2010, pp 730, 2010
  64. A. Klimanek, R.A. Białecki, A 3D CFD model of a natural draft wet-cooling tower, Proc. of 14th IAHR Cooling tower and air-cooled heat exchanger conference, Stellenbosch, South Africa, 2009, p. OP28
  65. A. Klimanek, Z. Ostrowski, R.A. Białecki, Reduced Order Model of Heat and Mass Transfer in Wet-cooling Tower Fills, Recent Developments in Artificial Intelligence Methods, AI-METH Series, Editors: T. Burczyński, W. Cholewa, W. Moczulski, Gliwice, November 2009, pp. 149-160
  66. V.D.Jothiprakasam, R. Białecki and G. Wecel, Simulation and validation of coal combustion models for large scale industrial boilers, Optimization using exergy-based methods and computational fluid dynamics: proceedings of the International Conference, Berlin, Germany, (2009), pp 131-142, ISBN: 978-386-9480-50-3  
  67. A. Ryfa, R.A. Białecki and D. Ingham, Direct and inverse methods for heat transfer coefficient retrieval for impingement cooling, 10th Us National Congress on Computational Mechanics, USNCCM X, Columbus OH. July 2009,  Invited, abstracts on memory stick.
  68. A. Klimanek, R.A. Białecki and Z. Ostrowski, CFD two scale model of a wet natural draft cooling tower, 2nd South East European Conference on Computational Mechanics SEECCM 2009, Rhodos June 2009, p 37 full version on CD, M. Papadrakakis, M. Kojic and V. Papadopoulos (edts)
  69. A. Ryfa and R.A. Białecki, Reconstruction of the heat transfer coefficient for impingement heat exchange, Proceedings of 7th World Conference on Experimental Heat Transfer, Fluid Mechanics and Thermodynamics - ExHFT Cracow,  pp 681-688 on CD, 2009. J.S. Szmyd, J.Spałek and T.A. Kowalewski edts.
  70. A. Klimanek and R.A. Białecki, CFD analysis of fixed and varying fill height natural draft wet-cooling tower, Proceedings of 18th International Conference of Computer Methods in Mechanics - CMM 2009, pp. 399-400, 2009
  71. A. Ryfa and R.A. Białecki, Direct and inverse methods in impingement heat transfer, Proceedings of 18th International Conference of Computer Methods in Mechanics - CMM 2009, pp 399-400, 2009
  72. A. Ryfa and R.A. Białecki, The heat transfer coefficient spatial distribution reconstruction by an inverse technique, International Symposium on Inverse Problems in Mechanics of Structures and Materials,  ECCOMAS Thematic Conference, Łańcut/Rzeszów, Z. Waszczyszyn. L. Ziemiański (edts) pp 75-76, 2009.
  73. G. Węcel, Z. Ostrowski and R.A. Białecki A novel approach of evaluationg absorption line black body distribution function employing proper orthogonal decomposition. Proceedings of EUROTHERM 83 Seminar on Computational Thermal Radiation in Participating Media III,  pp 293-302. Lisbon, 2009, P. Coelho, D. Lemmonier, P. Lybaert and N. Selcuk (edts),
  74. A. Kassab,  R.A. Białecki, and A. Fic, Solving Transient Heat Conduction Utilizing POD-Reduced FEM Models, ASME Paper IMECE2008-67404. Presented at session 12-30-2 Reduced Order Models in Fluid Dynamics and Heat Transfer, November 3, 2008.
  75. A.  Klimanek, Z.Ostrowski and R. A. Białecki, Multiscale CFD model of wet natural draft cooling tower,  Proceedings of  Symulacja 2008, ANSYS-MESCO, Tarnowskie Góry, Poland, 2008. (in Polish)
  76. A. Ryfa  and R.A. Białecki Application of inverse analysis to the retrieving of the heat transfer coefficient.  Proc. 20th of Thermodyn. Meeting,  Wrocław, Z. Gnutek, W. Gajewski (eds.),vol 2, pp 315-321, Publishing House of  Wroclaw University of Technology, Wrocław 2008 (in Polish)
  77. A. Ryfa and R.A. Białecki Rapid technique of retrieving heat transfer coefficient, 8th World Congress on Computational Mechanics WCCM8 and 5th European Congress on Computational  Methods in Applied Sciences and Engineering ECCOMAS 2008, Venice Italy, 30 June - 4th July 2008, Summary on CD-ROM published by International Centre for Numerical Methods in Engineering, Barcelona Spain.
  78. A. Fic, R.A. Białecki and Z. Ostrowski, Estimation of inlet velocity based on POD inverse solution of the unsteady heat transfer problem, 8th World Congress on Computational Mechanics WCCM8 and 5th European Congress on Computational Methods in Applied Sciences and Engineering ECCOMAS 2008, Venice Italy, 30 June - 4th July 2008, Summary on CD-ROM published by International Centre for Numerical Methods in Engineering, Barcelona Spain.
  79. Z. Ostrowski, R.A. Białecki, A. John, P. Orantek and W. Kuś, POD-RBF network approximation for identification of material coefficients of human pelvic bone tissue (keynote), 8th World Congress on Computational Mechanics WCCM8 and 5th European Congress on Computational Methods in Applied Sciences and Engineering ECCOMAS 2008, Venice Italy, 30 June - 4th July 2008, Summary on CD-ROM published by International Centre for Numerical Methods in Engineering, Barcelona Spain.
  80. A. Klimanek, Z. Ostrowski and R.A. Białecki, Reduced order model of heat and mass transfer in wet cooling tower fills, Proceedings of the 21st International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems, ECOS 2008, June 24-27 2008, Cracow, Poland, pp. 361-390.
  81. A. Klimanek and R.A. Białecki, Modelling of flow, heat and mass transfer in natural draught wet cooling towers,  XVI International Scientific Conference on Application of Experimental and Numerical Techniques in Fluid Mechanics, Zilina-Terhova, Slovak Republic, 23-25 April 2008, pp 73-78.
  82. A. Klimanek and R. Białecki. CFD model of the natural draft wet-cooling tower. Thermodynamics in science and technology, Z. Gnutek and W. Gajewski (eds), vol.1, pp.524-529, 2008 (in Polish)
  83. R.A. Białecki and A. Ryfa  Application of  the inverse analysis for retrieval of the heat transfer coefficient for the impingement cooling, XVI International Scientific Conference on Application of Experimental and Numerical Techniques in Fluid Mechanics, Zilina-Terhova, Slovak Republic, 23-25 April 2008, pp. 55-60.
  84. A. Fic  and R.A. Białecki, Application of the steppingPOD-FEM technique to the reduction of DOFs in nonlinear, transient heat conduction problems. XLVI Symp. Modelling in Mechanics, Gliwice - Wisła, Feb.-March 2007, summary on CD-ROM, ISBN 83-60102-40-6
  85. G. Węcel, R.A. Białecki, M. Mancini, and R. Weber, Radiative Heat Transfer in Industrial Furnaces, DKG-Symposium on Thermal Process Engineering, in Forteschrittberichte der Deutschen Keramischen Gesellschaft, Verfahrenstechnik, 22(1), Erlangen, 27-28 November (2007).
  86. A. Klimanek, and R.A. Białecki, Modelling of heat and fluid flow phenomena in wet natural draft cooling tower, Proceedings of the 1st Research and Technology Conference on Contemporary Energy Technologies and Equipment,  Cracow, 18-19 October (2007), pp. 257-267 (in Polish).
  87. A. Klimanek, G. Węcel, R.A. Białecki and  D.B. Ingham, Numerical Modeling of Flow, Heat and Mass Transfer in Natural Draft Wet-Cooling Towers, Proceedings of the International Conference on Computational Methods, Hiroshima, (2007), p. 65, on CD-ROM.
  88. A. Klimanek, Z. Ostrowski, and R.A. Białecki. Modelling of mass andheat transfer in natural draft wet cooling tower, Proc. XIII Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Koszalin-Darłówko, vol.I, pp.41-48, 2007 (in Polish)
  89. A. Ryfa  and R.A. Białecki.  Reconstruction of transient heat transfer in a piston of a car engine.  Proc. XIII Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Darłówko pp 883-891, 2007, (in Polish)Z. Ostrowski, R.A. Białecki, A. Fic, R. Weber and  M.
  90. Muster. POD-RBF approximation applied to the solution of inverse problems, Proc. XIII Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Koszalin-Darłówko, vol.II, pp.769-776, 2007. (in Polish)
  91. G. Węcel, M. Mancini, R. Białecki and R. Weber. Cartesian hierarchical meshes used in radiative heat transfer simulations. Proc. XIII Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Koszalin-Darłówko, vol.II, pp.1041-1048, 2007
  92. A. Ryfa, R.A. Białecki, B. Facchini and L. Tarchi, Application of the inverse analysis for boundary condition retrieval,  Proceedings of Inverse Problems, Design and Optimization Symposium (IPDO-2007) Vol. I, G.S. Dulikravich, M.J. Colaco, H.R.B. Orlande, M. Tanaka (eds.), Miami, Florida, U.S.A. (2007), pp 114-120.
  93. Z. Ostrowski, R.A. Białecki, A. Fic, R. Weber and M. Muster, POD-RBF Network approximation for inverse problem solutions, Proceedings of Inverse Problems, Design and Optimization Symposium (IPDO-2007) Vol. I, G.S. Dulikravich, M.J. Colaco, H.R.B. Orlande, M. Tanaka (eds.), Miami, Florida, U.S.A. (2007), pp 295-300.
  94. R.A. Białecki, Z. Ostrowski, A. Fic and A. Klimanek Application of the Proper Orthogonal Decomposition Method to the solution of direct and inverse heat transfer problems, International Conference on Computer Methods in Mechanics CMM-2007, K. Dems, D. Gawin, M. Lefik and Z. Więckowski eds. Łódź/Spała, 2007, pp. 21-22, full version on CD-ROM.
  95. A. Klimanek, Z. Ostrowski and R.A. Białecki, Coupled heat, mass and momentum transfer in natural draft wet cooling tower. Proceedings of Coupled Problems 2007, Computational Methods in in Science and Engineering II, E. Onate, M. Papadrakakis and B. Schrefler eds. International Centre for Numerical Methods in Engineering, Barcelona (2007), pp 183-186.
  96. G. Węcel and R.A. Białecki BEM with hierarchic meshes used to solve RTE, Computational Thermal Radiation in Participating Media II, Proceedings of 78 Eurotherm Seminar, Poitiers France, April 4-6, 2006,  Lemonnier D., Selçuk, N. and Lybaert, P. (eds), Editions Lavoisiere, Paris, pp. 43-52.
  97. K. Erhart, A. Kassab, E. Divo and R.A. Białecki The Truncated POD Laplace inversion method for transient heat conduction, Proc of CIMENICS 2006,8th International Congress of Numerical Methods in Engineering and Applied Sciences, Gamez, B., Ojeda, D., Larrazabal, G. and Cerrolaza, M., (eds.), Margarita Island, Venezuela, March 20-24, 2006, Sociedad Venezuelana de Methodos Numericos En Engineria, Valencia, Venezuela, pp. 61-68.
  98. Ł. Matulewicz, A. Pohl, M. Sokół, R.A. Białecki Principal component analysis of in vivo 1H NMR spectra from patients postoperatively irradiated for malignant gliomas, Proceedings of the Congress of European Society for Magnetic Resonance in Medicine and Biology, Basel, 15-18 September 2005, Abstract published in MAGMA Magnetic Resonance Materials in Physics, Biology and Medicine, 18:7, pp. 214.
  99. A. Fic, Z. Ostrowski, R.A. Białecki Retrieving inlet velocity in transient convection diffusion problems in the presence of phase chance using POD, EUROTHERM Seminar 82 Numerical Heat Transfer 2005, Cracow-Gliwice, Poland, A.J. Nowak R.A. Białecki G. Węcel (eds.), Institute of Thermal Technology, Silesian University of Technology, 2005, vol. 3, pp. 1057-1066.
  100. L. Wawrzonek and R.A. Białecki Temperature in a disk brake, simulation and experimental verification, Eurotherm Seminar 82 Numerical Heat Transfer 2005, Cracow-Gliwice, Poland, A.J. Nowak R.A. Białecki G. Węcel (eds.), Institute of Thermal Technology, Silesian University of Technology, 2005, vol. 3, pp. 1067-1076.
  101. Z. Ostrowski, R.A. Białecki, A.J. Kassab Novel applications of proper orthogonal decomposition to the solution of the inverse heat conduction problems, Proc. 19th of Thermodyn. Meeting, Gdańsk-Sopot, Poland, 2005, pp. 301-302 (full version on CD-ROM, in Polish).
  102. R.A. Białecki, Z. Ostrowski, M. Król Application of evolutionary algorithms to shape optimization of heat conducting elastic bodies  Proc. 19th of Thermodyn. Meeting, Gdańsk-Sopot, Poland, 2005, pp. 117-118 (full version on CD-ROM, in Polish).
  103. Z. Ostrowski, R.A. Białecki, A.J. Kassab Advances in application of proper orthogonal decomposition in inverse problems, 5th International Conference on Inverse Problems in Engineering: Theory and Practice, Cambridge, UK, D. Lesnic (ed.), vol. III, Leeds University Press, 2005, pp. 1-10.
  104. Z. Ostrowski, R.A. Białecki Inverse analysis of heat conduction problems using the proper orthogonal decomposition, Proc. of Fourth International Conference on Computational Heat and Mass Transfer, Progress in Computational Heat and Mass Transfer, Paris, France, R. Bennacer (ed), vol. II, 2005, pp. 1397-1402.
  105. R.A. Białecki, T. Burczyński, M. Król and Z. Ostrowski Shape optimization of thermoelastic problems, Proc. of Coupled Problems 2005, Computational Methods for Coupled Problems in Science and Engineering, M. Papadrakakis, E. Onate and B. Schrefler (eds), Barcelona, 2005, p. 68 (Full version on CD-ROM).
  106. Z. Ostrowski, R.A. Białecki and A.J. Kassab Improved POD solution of inverse problems, Sixth World Congress of Computational Mechanics WCCM VI in conjunction with APCOM’04, Abstracts, Springer and Tsinghua PressBeijing, 2004, vol. 1, p. 78 (Full version on CD-ROM).
  107. R.A. Białecki Review of software packages used in heat engineering, Chapter in Contemporary computational tools in power engineering, Workshop for the industry, Silesian University of Technology, Gliwice, 2004, pp. 1-13 (in Polish).
  108. R.A. Białecki Discretization methods. Chapter in Advanced Numerical Techniques in Energy Transfer, A.J. Nowak (ed), International Workshop for PhD Students, Silesian University of Technology, 2004, pp. 17-49.
  109. R.A. Białecki Modelling of thermal radiation. Chapter in Advanced Numerical Techniques in Energy Transfer, A.J. Nowak (ed), International Workshop for PhD Students, Silesian University of Technology, 2004, pp. 137-163.
  110. R.A. Białecki, M. Król and Z. Ostrowski Evolutionary algorithms in shape optimization of thermoelastic bodies. 2nd International Conference on Contemporary Problems of Thermal Engineering, Silesian University of Technology, Gliwice-Ustroń, 2004, pp. 407-414.
  111. A. Fic, R.A Białecki and A.J. Kassab The proper orthogonal decomposition technique combined with FEM - an effective tool for solving transient heat conduction problems, 2nd International Conference on Contemporary Problems of Thermal Engineering, Silesian University of Technology, Gliwice-Ustroń, 2004, pp. 415-426.
  112. G. Węcel, M. Kasprzyk and R.A. Białecki CFD model of the wet cooling tower, 2nd  International Conference on Contemporary Problems of Thermal Engineering, Silesian University of Technology, Gliwice-Ustroń, 2004, pp. 463-470.
  113. Z. Ostrowski, R.A. Białecki and A.J. Kassab Application of proper orthogonal decomposition in inverse hear conduction problems, Proc. XII Symp. Heat and Mass Transfer, vol. 2, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Cracow, 2004 pp. 625-636 (in Polish).
  114. R.A. Białecki Numerical solution of conjugate radiation convection problems (invited) Proc. XII Symp. Heat and Mass Transfer, vol. 1, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Cracow, 2004, pp. 37-54 (in Polish).
  115. A. Fic, R.A. Białecki and A.J. Kassab Application of the proper decomposition and FEM to the solution of direct heat conduction problems, Proc. XII Symp. Heat and Mass Transfer, vol. 1, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Cracow, 2004, pp. 221-233 (in Polish).
  116. Z. Ostrowski, R.A. Białecki and A.J. Kassab Estimation of constant thermal conductivity by use of Proper Orthogonal Decomposition, IABEM 2004, International Association for Boundary Element Methods 2004 Conference, University of Minnesota-Twin Cities, 2004, extended abstract book.
  117. A. Fic, R.A. Białecki and A.J. Kassab Solving transient nonlinear heat conduction problems by proper orthogonal decomposition and FEM, Proceedings of CHT-04 ICHMT International Symposium on Advances in Computational Heat Transfer, April 19-24, 2004, Norway, Paper No CHT-04-173, full text on CD-ROM.
  118. R.A. Białecki and G. Węcel BEM-FVM radiation-convection coupling on Cartesian and cylindrical meshes. Advanced Computational Engineering Mechanics, Proc. of the First Alexander von Humboldt Workshop Z. Ren, G. Kuhn, L. Skerget and  M. Hribersek edts, Maribor Slovenia, 2003, pp. 167-176.
  119. R.A. Białecki, Z. Ostrowski, T.Burczyński, W.Kuś and A. Długosz Parallel evolutionary algorithms in optimization of thermoelastic structures in the presence of radiation, pp. 24-25, AIMETH 2003, Proc. Methods of Artificial Intelligence, T. Burczyński, W. Cholewa and W. Moczulski eds, Gliwice, 2003, pp. 39-43, Full version on CD-ROM.
  120. M. Król and R.A. Białecki Reduction of heat losses through window panes. VIIIth Polish Symposium on Application of fluid mechanics in environmental protection and engineering, Wisła, 2003, pp. 175-182 (in Polish).
  121. R.A. Białecki, A.J. Kassab and A. Fic Reduction of dimensionality of transient FEM solutions using Proper Orthogonal Decomposition, 36 AIAA Thermophysics Conference, Orlando, 2003, AIAA paper 2003-4207.
  122. R.A. Białecki and G. Węcel Data exchange between convective and radiative solvers employing two different numerical meshes, 15 International Conference on Computer Methods in Mechanics CMM-2003, T Burczyński, P. Fedeliński and E. Majchrzak eds. Gliwice/Wisla, 2003, pp. 21-22, full version on CD-ROM.
  123. R.A. Białecki, T. Burczyński, A. Długosz, W. Kuś and Z. Ostrowski Shape optimization of thermoelastic heat radiating bodies using evolutionary algorithms, 15th International Conference on Computer Methods in Mechanics CMM-2003, T. Burczyński,  P. Fedeliński and E. Majchrzak eds. Gliwice/ Wisla, 2003, pp. 69-70, full version on CD-ROM.
  124. M. Król and R.A. Białecki Genetic optimization of a plastic window frame. IX-th Polish Conference on Theory and Practice in Building Physics, Łódź, 2003, pp. 357-364 (in Polish).
  125. R.A. Białecki and G. Węcel Solution of conjugate radiation convection problems by a BEM FVM technique. Computational Thermal Radiation in Participating Media, Eurotherm 73, P. Lybaert, V. Feldheim D. Lemonnier and N. Selçuk (eds), Elsevier, Paris, Amsterdam, 2003, pp. 307-316.
  126. R.A. Białecki, A.J. Kassab and Z. Ostrowski Application of the Proper Orthogonal Decomposition in steady state inverse problems, International Symposium on Inverse Problems in Engineering Mechanics, M. Tanaka, and G.S. Dulikravich (eds) , Nagano City, Japan, Books of Abstracts, pp. 1-2, full version Inverse Problems in Engineering Mechanics IV Masa. Tanaka (ed), Elsevier BV Amsterdam, Boston, 2003, pp. 3-12.
  127. R.A. Białecki and M. Król Minimum heat losses subjected to stiffness constraints: window frame optimization, IUTAM Symposium on Evolutionary Methods in Mechanics, T. Burczyński and A. Osyczka (eds), Cracow, 2002, pp. 5-7.
  128. R.A. Białecki, T. Burczyński, A. Długosz and Z. Ostrowski Evolutionary BEM in shape optimization of thermoelastic bodies in the presence of radiation, Proceedings of the International Conference on Computational Engineering and Sciences S. Atluri (ed), Reno, USA, 2002, full version on CD-ROM.
  129. R. A. Białecki, M. Król Parallel calculation of genetic algorithm optimization of a window frame, Proc. AIMETH 2002, International Seminar on Methods of Artificial Intelligence in Mechanics and Mechanical Engineering, T. Burczyński, W. Cholewa and W. Moczulski (eds), Gliwice, 2002, pp. 97-100.
  130. R.A. Białecki, Z. Ostrowski, T. Burczyński and A. Długosz Application of the evolutionary BEM in shape shape optimization of radiating thermoelastic bodies, Proc. 18th Thermodyn. Meeting, Polish Academy of Sciences Committee for Thermodynamics and Combustion, Muszyna, 2002, pp. 75-82 (in Polish).
  131. M. Król and R.A. Białecki Optimization of the window frame by genetic algorithm, AIMECH 2001, Proc. International Seminar Methods of Artificial Intelligence in Mechanics and Mechanical Engineering, T. Burczyński and W. Cholewa (eds),  Gliwice, 2001, pp. 103-108.
  132. Z. Ostrowski, R.A. Białecki, G. Węcel and A.J. Kassab Application of commercial FEM codes for the solution of coupled and inverse problems of heat transfer,  VI Conference on FEM Software in Computer Aided Analysis, Design and Manufacturing, Military Academy of Technology, Warsaw, 2001, pp. 201-210 (in Polish).
  133. A.J. Nowak, A. Fic, G. Węcel, R.A. Białecki, L.C. Wrobel and B. Šarler Heat transfer analysis in Czochralski’s process, Proc. Symp. Heat and Mass Transfer, vol 2, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Gliwice-Szczyrk, 2001, pp. 1-8.
  134. R.A. Białecki, E. Divo, and A.J. Kassab The time-to-arrival problem for determination of multi-dimensional heat flux, International Symposium on Inverse Problems in Engineering Mechanics, M. Tanaka, and G.S. Dulikravich (eds) , Nagano City, Japan, Elsevier Press, London, 2001, pp. 29-39.
  135. R.A. Białecki, E. Divo, A.J. Kassab Comparison of a genetic algorithm and the Levenberg-Marquardt method for multi-dimensional heat flux reconstruction, ECCM 2001, Proc. of European Conference on Computational Mechanics, M. Waszczyszyn, J. Pamin (eds), European Council of Computational Mechanics, Book of Abstracts, 2001, pp. 474-475, full lengths paper on a CD-ROM.
  136. R.A. Białecki, Z.P. Ostrowski, A.J. Kassab, Q. Yin., and E. Sciubba Coupling of Finite Element and Boundary Element solutions, ECCM 2001, Proc. of European Conference on Computational Mechanics, M. Waszczyszyn, J. Pamin (eds), European Council of Computational Mechanics, Book of Abstracts, 2001, pp. 164-165, full lengths paper on a CD-ROM.
    M. Król, R.A. Białecki Natural convection in window panes. Numerical model and comparison with existing correlations. VIIth Polish Symposium on Application of fluid mechanics in environmental protection and engineering, Wisła, 2001, pp. 167-175 (in Polish).
  137. R. Cholewa, A.J. Nowak, R.A. Białecki and L.C. Wrobel BEM solution of the heat transfer problem in the continuous casting process, ECCM 2001, Proc. of European Conference on Computational Mechanics, M. Waszczyszyn, J. Pamin (eds), European Council of Computational Mechanics, Book of Abstracts, 2001, pp. 170-171, full lengths paper on a CD-ROM.
  138. R. A. Białecki, E. Divo, and A.J. Kassab Unknown heat flux boundary condition reconstruction using a BEM-based inverse algorithm, Joint Meeting of International Conference on Boundary Element Techniques and International Association for Boundary Element Methods, M. Denda, F. Aliabadi (eds), Rutgers University, New Brunswick, New Jersey, USA, Hogar Press, Switzerland, 2001, pp. 241-252.
  139. R.A. Białecki, G. Węcel Interaction of radiation with other heat transfer modes, Boundary Element Technology XIV, A. Kassab and C.A. Brebbia (eds), WIT Press, Southampton and Boston, 2001, pp. 37-46.
  140. G. Węcel, R.A. Białecki, A.J. Nowak and A. Fic BEM-FVM solution on conjugate heat transfer problems in Czochralski crystal growth process, Boundary Element Technology XIV, Orlando, (USA), A. Kassab and C.A. Brebbia (eds), WIT Press, Southampton and Boston, 2001, pp. 67-76.
  141. J. Blobner, R. Białecki and G. Kuhn Heat conduction in bodies with self irradiating boundaries in the presence of shadow zones, Proc. International Symposium on Boundary Element Method, IABEM, Brescia, Italy, 2000, pp. 31-34.
  142. R. Cholewa, A.J. Nowak, R.A. Białecki, L.C. Wrobel Application of cubic elements and Bezier splines for BEM heat transfer analysis of the continuous casting problem, Proc. International Symposium on Boundary Element Method, IABEM, Brescia, Italy, 2000, pp. 55-57.
  143. G. Węcel, R.A. Białecki Mathematical modelling of the coupled heat transfer phenomena, Proc. 17th Thermodyn. Meeting, Polish Academy of Sciences Committee for Thermodynamics and Combustion, Zakopane, 1999, pp. 1535-1546 (in Polish).
  144. R.A. Białecki, J. Blobner and G. Kuhn Application of the boundary element methods to coupled transient heat transfer problems, Proc. 17th Thermodyn. Meeting, Polish Academy of Sciences Committee for Thermodynamics and Combustion, Zakopane, 1999, pp. 43-52 (in Polish).
  145. G. Węcel and R.A. Białecki Coupled convective and radiating heat transfer in participating media. ECCM ’99, Proc. of European Conference on Computational Mechanics, W. Wunderlich (ed), European Council of Computational Mechanics, Book of Abstracts, 1999, pp. 832-833, full lengths paper on a CD-ROM.
  146. J. Blobner, G. Kuhn, R.A. Białecki and M. Hriberšek A Dual Reciprocity Boundary Element formulation for transient non-linear conduction-radiation problems, Proc. of the IUTAM/IABEM Symposium on Advanced Mathematical and Computational Mechanics Aspects of the Boundary Element Method, T. Burczyński and T.A. Cruse (eds), Cracow, 1999, Kluwer Academic Publishers, Dordrecht, 2001, pp. 1-11.
  147. R.A. Białecki, Ł. Grela Temperature field in bodies containing radiating cavities, BEM solutions. Proceedings of Eurotherm 53, Mons, 1997, Advanced Concepts and Techniques in Thermal Modelling, J. Henriette, P. Lybaert, M. El Hayeck (ed), Elsevier, Paris, 1998, pp. 199-206.
  148. J. Blobner, R.A. Białecki and G. Kuhn Transient conduction-radiation problems, Dual reciprocity solution, 20th International Boundary Element Conference, Orlando (USA), C.A. Brebbia, A. Kassab R. Chopra (eds), Computational Mechanics Publications, Southampton and Boston, 1998, pp. 627-636 (invited paper).
  149. R.A. Białecki, A. Fic, A.J. Nowak and B. Šarler BEM approaches to phase change systems - comparative studies of front tracking and enthalpy schemes, Advanced Computational Methods in Heat Transfer V, Proc. Intern. Confer. on Advanced Comput. Meth. in Heat Transf., Cracow, A.J. Nowak, C.A. Brebbia, R.A. Białecki and M. Zerroukat (eds), Computational Mechanics Publications, Southampton, 1998, pp. 201-212.
  150. G. Węcel, R. Weber and R.A. Białecki Computational and experimental studies on reburn jet penetration, Advanced Computational Methods in Heat Transfer V, Proc. Intern. Confer. on Advanced Comput. Meth. in Heat Transf., Cracow, A.J. Nowak, C.A. Brebbia, R.A. Białecki and M. Zerroukat (eds), Computational Mechanics Publications, Southampton, 1998, pp. 461-471.
  151. J. Blobner, R.A. Białecki and G. Kuhn Dual reciprocity BEM for transient non-linear problems of heat conduction, Proc. International Symposium on Boundary Element Method, IABEM, Paris, 1998, pp. 48-49.
  152. B. Šarler, G. Kuhn and R.A. Białecki Dual reciprocity boundary element solution of mass and momentum transport in solidification, Proc. International Symposium on Boundary Element Method, IABEM, Paris, 1998, pp. 47-48.
  153. R.A. Białecki, A. Fic, A.J. Nowak, and L.C. Wrobel Continuous casting: a front tracking boundary element method solution, R. Van Keer and C.A. Brebbia (eds), Moving Boundaries IV, Computational Modelling of Free and Moving Boundary Problems, Ghent, Belgium, Computational Mechanics Publications, Southampton, 1997, pp. 461-471.
  154. R.A. Białecki Application of the boundary element method in radiation, Proceedings of the 2nd Seminar on Radiative Transfer, P. Mengüc (ed), Kusadasi, Aydin, Turkey, Book of Abstracts, 1997, pp. 96-98.
  155. R.A. Białecki Coupled radiative, convective and conductive heat transfer, BEM solution. Proc. IUTAM/IABEM Seminar on Nonlinear Problems in BEM, Siena, L. Morino, L. Wendland (eds), Kluwer, Dordrecht, 1997, pp. 23-27.
  156. R.A. Białecki, A. Fic and A.J. Nowak BEM inverse analysis of thermal problems in continuous casting, Advanced Computational Methods in Heat Transfer IV, Proc. Intern. Confer. on Advanced Comput. Meth. in Heat Transf., Udine, Italy, L.C. Wrobel, G. Comini, C.A. Brebbia and A.J. Nowak (eds), Computational Mechanics Publications, Southampton, 1996, pp. 440-450.
  157. R.A. Białecki, A. Fic, A.J. Nowak, and L.C. Wrobel BEM solution of continuous casting problem, Advanced Computational Methods in Heat Transfer IV, Proc. Intern. Confer. on Advanced Comput. Meth. in Heat Transf., Udine, Italy, L.C. Wrobel, G. Comini, C.A. Brebbia and A.J. Nowak (eds), Computational Mechanics Publications, Southampton, 1996, pp. 337-436.
  158. R.A. Białecki, A. Fic, A.J. Nowak, and L.C. Wrobel Numerical analysis of continuous casting problem by BEM. Heat'96, Proc. International Conference on Heat Transfer with Change of Phase, Kielce, 1996, pp. 73-82.
  159. A.J. Nowak, R.A. Białecki, and A.Fic BEM inverse analysis of thermal problems in continuous and die casting, MMSP'96 General Workshop, Davos, M. Rappaz (ed), Scientific Committee of European Union, 1996, pp. 209-219.
  160. R.A. Białecki, A. Fic, A.J. Nowak and L.C. Wrobel Front-tracking BEM solution of two phase conduction problem in moving body, Proc. 16th Thermodyn. Meeting, Polish Academy of Sciences Committee for Thermodynamics and Combustion, Kołobrzeg-Koszalin, 1996, pp. 75-84.
  161. R.A. Białecki and T. Kruczek Calculation of temperature and pressure distribution in a steam pipeline, Proc. 16th Thermodyn. Meeting, Polish Academy of Sciences Committee for Thermodynamics and Combustion, Kołobrzeg-Koszalin, 1996, pp. 65-74.
  162. R.A. Białecki, M. Merkel and G. Kuhn Direct BEM solvers; state of the art, Proc.7th Seminar of DFG Priority Programme on Boundary Element Methods, (abstracts of papers), Stuttgart, 1995 (invited paper).
  163. R.A. Białecki, A. Fic and A.J. Nowak Sensitivity coefficients for BEM analysis of continuous casting, Boundary Element Technology X, International Conference on Boundary Element Technology BETECH 95, Liege, (B), M.H. Aliabadi, C.A. Brebbia, P. Dular and A. Nicolet (eds), Computational Mechanics Publications, Southampton and Boston, 1995, pp. 77-87.
  164. R.A. Białecki Application of the boundary element method to calculation of the temperature fields in bodies containing radiating enclosures, Proc. Symp. Heat and Mass Transfer; Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Augustów, 1995, pp. 91-100 (in Polish).
  165. R.A. Białecki, A. Fic and A. Nowak Sensitivity coefficients for inverse thermal problems and boundary element method, Proc. Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Augustów, 1995, pp. 101-108 (in Polish).
  166. R.A. Białecki Application of the boundary element method in radiative heat transfer calculations, Proc. Seminar on Mathematical Modelling in Energy Systems and Processes, TEMPUS Structural Joint European Project SJEP 07397-94, Sosnówka n. Karpacz, 1995, pp. 285-302, (in Polish).
  167. R.A. Białecki, K. Kurpisz, A.J. Nowak, and J. Skorek TERMO a software package for calculations in thermodynamics, Proc. Seminar on Mathematical Modelling in Energy Systems and Processes, TEMPUS Structural Joint European Project SJEP 07397-94, Sosnówka n. Karpacz, 1995, pp. 358-371 (in Polish).
  168. R.A. Białecki Development of the boundary element methods in its applications to heat radiation problems, Proc. Seminar on Fluid flow engines and devices, processes of energy conversion, Polish Committee of Scientific Research, Rybnik, 1995, pp. 105-107.
  169. R.A. Białecki Coupling procedure of radiation in cavities and conduction in the presence of nonlinear material behaviour. Proceedings of the 6th Seminar of DFG Priority Programme on Boundary Element Methods, (abstracts of papers), Schmallenberg, 1994, p. 14 (invited paper).
  170. R.A. Białecki Coupling heat radiation in cavities with nonlinear heat conduction, Boundary Elements 16, 16th International Boundary Element Conference, Southampton (UK), C.A. Brebbia (ed), Computational Mechanics Publications, Southampton and Boston, 1994, pp. 81-91 (invited paper).
  171. R.A. Białecki and Ł. Grela Practical aspects of developing heat radiation BEM code, Boundary Element Technology IX, International Conference on Boundary Element Technology BETECH 94, Orlando, Florida, (USA) C.A. Brebbia and A. Kassab (eds), Computational Mechanics Publications, Southampton and Boston, 1994, pp. 29-39 (invited paper).
  172. R.A. Białecki, W. Łukaszek and A.J. Nowak Temperature distribution in a model of shielding system of PWR nuclear reactor WWER-440, Proc. 15th Thermodyn. Meeting, Polish Academy of Sciences Committee for Thermodynamics and Combustion, Kokotek-Gliwice, 1993, pp. 51-56 (in Polish).
  173. R.A. Białecki and G. Kuhn Numerical aspects of BEM solution of heat radiation equations, Proc. IABEM 93 Conference, Braunschweig (D), International Association for Boundary Element Method, Braunschweig, 1993.
  174. R.A. Białecki Improved BEM solution of radiative heat transfer problems in participating media. Proc. 8th Conference on Numerical Methods in Thermal Problems, Swansea (UK), R.W. Lewis (ed), Pineridge Press, Swansea, 1993, pp. 819-838.
  175. R.A. Białecki and G. Kuhn BEM solution of steady state potential problems. Proc. GAMM Conference, Dresden (D), (abstracts of papers), Gesellschaft für Angewandte Mathematik und Mechanik, Dresden, 1993, p. 20 (invited paper).
  176. R.A. Białecki Novel zoning solution of radiative heat transfer problems in participating media, Proc. of Computer Methods in Mechanics, Kielce-Cedzyna (PL), 1993, pp. 70-86.
  177. R.A. Białecki Boundary Element solution of radiation in participating media, Proc. Symp. Heat Mass Transf., Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Białowieża, 1992, pp. 27-34.
  178. R.A. Białecki Boundary element calculations of the radiative heat sources, Advanced Computational Methods in Heat Transfer II, vol. 1 Conduction, Radiation and Phase Change, Milano (I), L.C. Wrobel, C.A. Brebbia and A.J. Nowak (ed), Elsevier Applied Science, London, 1992, pp. 205-217.
  179. R.A. Białecki Solving radiative heat transfer problems in participating media by BEM, Proc. of the GAMM Conference, Leipzig (D), (abstracts of papers), Gesellschaft für Angewandte Mathematik und Mechanik, Leipzig, 1992, p. 209.
  180. R.A. Białecki and G. Kuhn Boundary element solution of nonlinear material heat conduction problems with contact resistance, Proc. GAMM Conference, Cracow (PL), (abstracts of papers), Gesellschaft für Angewandte Mathematik und Mechanik, 1991, p. 148.
  181. R.A. Białecki Solving radiative heat transfer problems using BEM, Proc. 14th Thermodyn. Meeting, Polish Academy of Sciences Committee for Thermodynamics and Combustion, Kraków, (PL), 1990, pp. 19-26 (in Polish).
  182. R.A. Białecki Solving 3D heat radiation problems in cavities filled by a participating non-gray medium using BEM, Computational Methods in Heat Transfer, vol. 2, Portmouth (UK) L.C. Wrobel, C.A. Brebbia and A.J. Nowak (ed), Springer Verlag, Berlin and New York, 1990, pp. 205-225.
  183. R.A. Białecki Solving coupled heat radiation conduction problems using the boundary element method, Proc. GAMM Conference Hannover, (abstracts of papers), Gesellschaft für Angewandte Mathematik und Mechanik, Hannover (D), 1990, p. 4.2b.
  184. R.A. Białecki Modelling 3D band thermal radiation problems in cavities using BEM, Advances in Boundary Elements, vol. 2 Field and Fluid Flow Solutions BEM formulation, Cambridge, Ma, (USA), C.A. Brebbia and J.J. Connor (ed), Springer Verlag, Berlin and New York, 1989, pp. 116-135.
  185. Szczygieł, A. Szlęk and R.A. Białecki Boundary curve generator in 2D Finite Elements codes, Proc. 28th Symp. on Modelling in Mechanics, Polish Society for Theoretical and Applied Mechanics, Wisła-Gliwice, 1989, pp. 349-354 (in Polish).
  186. R.A. Białecki Radiative heat transfer in cavities, BEM formulation, Boundary Elements X, vol. 2, Heat Transfer, Fluid Flow and Electric Applications, Southampton (UK), C.A. Brebbia (ed), Springer Verlag, Berlin and New York, 1988, pp. 246-256.
  187. R.A. Białecki Solving nonlinear heat transfer problems by BEM, Boundary Elements X, vol. 2, Heat Transfer, Fluid Flow and Electric Applications, Southampton (UK), C.A. Brebbia (ed), Springer Verlag, Berlin and New York, 1988, pp. 199-222 (invited paper).
  188. R.A. Białecki and R. Nahlik Nonlinear equations solver for large equation sets arising when using BEM in inhomogeneous regions of nonlinear materials, Boundary Elements IX, vol. 1, Stuttgart (D), C.A. Brebbia, W. Wendland and G. Kuhn (eds), Springer Verlag, Berlin and New York, 1987, pp. 505-518.
  189. R.A. Białecki and R. Nahlik Linear equations solver for large block matrices arising in BEM, Boundary Elements IX, vol. 1, Stuttgart (D), C.A. Brebbia, W. Wendland and G. Kuhn (eds), Springer Verlag, Berlin and New York, 1987, pp. 493-503.
  190. R.A. Białecki, A.J. Nowak and St. Postrzednik Analysis of solar energy availability in the vicinity of Bielsko-Biała. Proc. of Symposium on Energy Problems in Mechanics; Polish Society for Theoretical and Applied Mechanics, Bielsko-Biała, May 1987, pp. 21-28 (in Polish).
  191. R.A. Białecki, A.J. Nowak and St. Postrzednik Characteristic of conditions of wind energy utilization in the vicinity of Bielsko-Biała, Proc. of Symposium on Energy Problems in Mechanics, Polish Society for Theoretical and Applied Mechanics, Bielsko-Biała, May, 1987, pp. 29-36 (in Polish).
  192. St. Postrzednik, R.A. Białecki and A.J. Nowak Main factors influencing self heating of solid fuels, Proc. 10th Intern. Symp. on Combustion Processes, (abstracts of papers), Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Warsaw, August, 1987, p. 118.
  193. R.A. Białecki Boundary integral equation method (boundary element method), pp. 65-75, Methods of solving sets of algebraic equations, pp. 76-80, Comparison of efficiency of selected numerical methods, pp. 82-85. Chapters in Heat transfer in the processes of metal heating and cooling, Ustroń, J. Szargut (ed), Association of Technicians and Engineers of the Steel Industry, Institute of Thermal Technology and Institute of Iron Metallurgy, 1986 (in Polish).
  194. R.A. Białecki, A. Zajdel Determining temperature field in an oil flame, Proc. 25th Symp. on Modelling in Mechanics, Polish Society for Theoretical and Applied Mechanics, Kudowa-Gliwice, 1986, pp. 25-39 (in Polish).
  195. R.A. Białecki, G. Petela and R. Wilk Determination of the location of the stoichiometric surface in oil flames, Proc. 9th Intern. Symp. on Combustion Processes, (abstracts of papers), Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Wisła, 1985, p. 108.
  196. R.A. Białecki, A.J. Nowak and R. Nahlik Applying Green's function for the semi plane with boundary conditions of the third kind in BEM, Boundary Elements VII, vol. 2 Como (I), C.A. Brebbia and G. Maier (eds), Springer Verlag, Berlin and New York, 1985, pp. 2-99 - 2-105.
  197. R.A. Białecki Applying BEM to calculations of temperature, field in bodies containing radiating enclosures. Boundary Elements VII, vol.2, Como (I), C.A. Brebbia and G. Maier (eds), Springer Verlag, Berlin and New York, 1985, pp. 2-35 - 2-50.
  198. R.A. Białecki, K. Kurpisz and A.J. Nowak Mathematical model of heat transfer in a hydraulic vulcanization press, Proc. 24th Symp. on Modelling in Mechanics, Polish Society for Theoretical and Applied Mechanics, Szczyrk-Gliwice, 1985, pp. 5-12 (in Polish).
  199. R.A. Białecki, A.J. Nowak and R. Nahlik Temperature field in a solid forming an enclosure where heat transfer by convection and radiation is taking place, Proc. 1st National UK Heat Transfer Conference, Leeds, (UK), Pergamon Press, London, 1984, pp. 989-1000.
  200. R.A. Białecki, A.J. Nowak and R. Nahlik Applying Green's function to steady state temperature fields calculations using BEM, Proc. 12th Thermodyn. Meeting, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Rytro, 1984 pp. 56-61 (in Polish).
  201. R.A. Białecki, A.J. Nowak and R. Nahlik Applying Green's function to steady state temperature fields calculations for a semi-plane with boundary conditions of the third kind in BEM, Proc. Symp. on Modelling in Mechanics, Polish Society for Theoretical and Applied Mechanics, Szczyrk-Gliwice, 1984, pp. 19-27 (in Polish).
  202. R.A. Białecki, A.J. Nowak and R. Nahlik Temperature field in a radiating body washed on by a transparent gas, Proc. Symp. Heat and Mass Transfer, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Jabłonna n. Warsaw, 1983, pp. 26-31 (in Polish).
  203. R.A. Białecki and A.J. Nowak Heat radiation in an enclosure bounded by heat conducting walls and filled with a transparent medium, Proc. 22nd Symp. on Modelling in Mechanics, Polish Society for Theoretical and Applied Mechanics, Wisła-Gliwice, 1983, pp. 49-57 (in Polish).
  204. R.A. Białecki and R. Nahlik Solving boundary value problems of heat conduction in composite media using BEM, Proc. 22nd Symp. on Modelling in Mechanics; Polish Society for Theoretical and Applied Mechanics, Wisła-Gliwice, 1983, pp. 37-48 (in Polish).
  205. R.A. Białecki, A.J. Nowak and R. Nahlik Applying axisymmetrical fundamental solution and Green's function in the Boundary Integral Equations Method, Proc. 21st Symp. on Modelling in Mechanics, Polish Society for Theoretical and Applied Mechanics, Wisła-Gliwice, 1983, pp. 29-36 (in Polish).
  206. A.J. Nowak, R.A. Białecki and K. Kurpisz A method of computing eigenvalues for boundary value problems of heat conduction in Cartesian and cylindrical geometry, Proc. 11th Thermodyn. Meeting, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Świnoujście, 1981, pp. 404-407 (in Polish).
  207. R.A. Białecki and R. Nahlik Determining steady state temperature fields in solids of complex geometry by BEM, Proc. 11th Thermodyn. Meeting; Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Świnoujście, 1981, pp. 34-37 (in Polish).
  208. R.A. Białecki and A.J. Nowak Solving nonlinear boundary value problems by the Boundary Integral Equations Method, Proc. 11th Thermodyn. Meeting, Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Świnoujście, 1981, pp. 38-41 (in Polish).
  209. R.A. Białecki and A.J. Nowak Solving nonlinear boundary value problems of heat conduction with nonlinear material by BEM, Proc. 20th Symp. on Modelling in Mechanics, Polish Society for Theoretical and Applied Mechanics, Wisła-Gliwice, 1981, pp. 53-61 (in Polish).
  210. R.A. Białecki and R. Nahlik Application of the Boundary Integral Equations Method in heat conduction problems, Proc. 20th Symp. on Modelling in Mechanics, Polish Society for Theoretical and Applied Mechanics, Wisła-Gliwice, 1981, pp. 41-50 (in Polish).
  211. R.A. Białecki Method of solutions coupling for transient temperature fields, Proc. 19th Symp. on Modelling in Mechanics, Polish Society for Theoretical and Applied Mechanics (PTMTS), Szczyrk-Gliwice, 1979, pp. 27-34 (in Polish).
  212. R.A. Białecki and St.J. Gdula Calculation of steady state temperature fields in composite regions, Proc. Symp. Heat and Mass Transfer; Polish Academy of Sciences, Committee for Thermodynamics and Combustion, Jabłonna n. Warsaw 1979, pp. 28-36 (in Polish).
  213. St.J. Gdula, R.A. Białecki, K. Kurpisz, A.J. Nowak and A. Sucheta Temperature field calculations in blast furnace lining, Proc. 7th Symp. of Electr. Industr. N. Sącz, Poland, 1978 (in Polish).
  214. R.A. Białecki Coupling numerical and analytical solutions of steady state temperature fields, Proc. Symp. Heat and Mass Transfer; Polish Academy of Sciences, Committee for Thermodynamics and Combustion. Jabłonna n. Warsaw, 1976, pp. 7-18 (in Polish).

 

 

Unpublished research (selected items)/Niepublikowane prace (wybrane pozycje)

  1. R.A. Białecki A. Ziębik et al.: Advanced Energy Generation Systems, Development of oxycombustion technologies ofr pulverized and fluidized bed coal fired boilers with CO2 capture from flue gases, Strategic Project, Financed by Polish Centre of Research and Development, (010-2015), intermediate reports, (in Polish).
  2. R.A. Białecki, A. Szlęk et al.: Research Center for Energy and New Technologies (RECENT), European Union 7th Framework Programme, Regional Potential Scheme, under contract 245819, 2010-2013, (20010-2013), intermediate report.
  3. R.A. Białecki and A. Ryfa: Retrieving heat transfer coefficient for jet impingement using inverse methods Under contract N512 354937 with Polish Ministry of Science and Education, Institute of Thermal Technology, (2009-2011) (in Polish).
  4. R.A. Białecki and A. Klimanek: Simulation of heat, mass and momentum tranport in natural drought wet cooling tower. Under contract N51300232/0140 with Polish Ministry of Science and Education, Institute of Thermal Technology, (2006-2010), (in Polish).
  5. R. Weber, M. Muster, R.A. Białecki et al.: Optimization of Systems, Energy Management, and Environmental Impact in Process Engineering (INSPIRE), European Union 6th Framework Programme, Marie Curie Research and Training Network, under contract MRTN-CT-2005-019296, (2006-2009).
  6. R.A. Białecki et al.: Simulation and Environmental Impact of Energy Systems and Processes (OPTI_ENERGY) European Union 5th Framework Programme, under contract NNE5-2002-00001, (2003-2005).
  7. R.A. Białecki and M. Król: Optimization of thermal parameters of selected types of windows,  Under contract  4  T10B 023 23 with Polish Committee for Scientific Research, Institute of Thermal Technology, Silesian University of Technology, (2002-2004), (in Polish). 
  8. A.J. Kassab, J.Kapat, E. Divo, and R.A. Białecki: Glenn-HT/BEM conjugate heat transfer solver for large-scale turbomachinery models, NASA, National Research Announcement NRA-01-GRC-2, June, 2001-2004.
  9. R.A. Białecki, T. Burczyński, Z. Ostrowski, L. Długosz: Application of genetic algorithms to shape optimization of thermoelastic bodies in the presence of heat radiation. Under contract 8 T10B 047 19 with Polish Committee for Scientific Research, Institute of Thermal Technology, Silesian University of Technology, (2000-2003), (in Polish).
  10. R.A. Białecki, G. Węcel: Modelling of coupled heat radiation and convection problems. Under contract 8 T10B 046 18, with Polish Committee for Scientific Research, Institute of Thermal Technology, Silesian University of Technology, (2000), (in Polish).
  11. A..J. Nowak, R.A. Białecki, B. Sarler, A. Fic, I. Nowak, G. Węcel and R. Cholewa: Mathematical modelling of solidification and melting in the presence of convection and radiation in semi transparent media, Under contract KBN T10B 050 15, with Polish Committee for Scientific Research, Institute of Thermal Technology, Silesian University of Technology, International Research Programme Simulation of Physical Phenomena in Technological Applications - COST P3. (2001).
  12. R.Weber, R. Wilk, A. Szlęk, R.A. Białecki, G. Węcel et al: Development, characterization and scaling of atomizers for a combustion technology that offers significant fuel savings and drastic reduction in both CO2 and NO emissions(OIL-TECH), European Union 5th Framework Programme under contract ENK6-CT-1999-00005, (2000-2002).
  13. R.A. Białecki, Ł. Grela and G. Węcel: Application of the boundary element method to the solution of coupled heat transfer problems, under contract 8T10B 014 11 with Polish Committee for Scientific Research, Institute of Thermal Technology, Silesian University of Technology, (1999), (in Polish).
  14. A.J. Nowak, R.A. Białecki, A. Fic, K. Kurpisz, J. Skorek, and I. Szczygieł: Modelling of inverse problems of heat transfer using BEM. under contract  3 P404 025 07,with Polish Committee for Scientific Research, Institute of Thermal Technology, Silesian University of Technology, (1997).International Programme Cooperation in Science and Technology, COST 512.
  15. R.A. Białecki et al.: Joint Energy and Environmental Protection Project, (JEEPP), European Union  Phare Programme, under contract JEP-07397,(1994-1997).
  16. R.A. Białecki, Ł. Grela: Advances in the application of the boundary element method in radiative heat transfer, under contract 3 P404 015 07  with Polish Committee for Scientific Research, Institute of Thermal Technology, Silesian University of Technology, (1996), (in Polish).
  17. R.A. Białecki: Further development of the boundary element method, under contract 3 P404 033 01 with Polish Committee for Scientific Research, Institute of Thermal Technology, Silesian University of Technology, (1994), (in Polish).
  18. R.A. Białecki and G. Kuhn: BEM computer package for thermal analysis involving conduction, convection and radiation; BETTI, BERTA, P2B codes user’s manual, Internal report, Lehrstuhl für Technische Mechanik, Universität Erlangen-Nürnberg, Erlangen, Germany, (1994).
  19. R.A. Białecki and G. Kuhn: Upgrading BETTI: introducing nonlinear material, heat radiation and multiple right hand sides options, Rept. No.019 2 0199894 2 9 under contract with Mercedes Benz A.G., Lehrstuhl für Technische Mechanik, Universität Erlangen-Nürnberg, Erlangen, Germany, (1993).
  20. R.A. Białecki and R. Weber: Heat transfer in industrial furnaces, Rept. No. IFRF Doc No G 00/y/4, under contract with International Flame Research Foundation, IFRF, IJmuiden, The Netherlands, (1991).
  21. R.A. Białecki and G. Kuhn: Upgrading BETTI replacing standard solver by block solver routines, Rept. No. 019 0688243 2 9 under contract with Mercedes Benz A.G., Lehrstuhl für Technische Mechanik, Universität Erlangen-Nürnberg, Erlangen, Germany, (1991).
  22. R.A. Białecki and G. Kuhn: Upgrading BETTI: minimum distance between a source point and a boundary element and contact resistance boundary condition, Rept. No. 019 0653 111 49 under contract with Mercedes Benz A.G., Lehrstuhl für Technische Mechanik, Universität Erlangen-Nürnberg, Erlangen, Germany, (1991).
  23. R.A. Białecki, Method of solution coupling for steady state temperature fields in bodies of complex geometry, Ph.D. Thesis. Energy and Mechanical Engineering Department of the Silesian University of Technology, Gliwice (1978) (in Polish).
  24. R.A. Białecki and A. Sucheta: Deriving a method of computing temperature, pressure and concentrations profiles within a catalyst bed, medium pressure, methanol reactor and applying this method to calculations of main dimensions of this reactor. M. Sc. Thesis, Chemical Engineering and Chemical Technology Department of the Silesian University of Technology, Gliwice (1972) (in Polish).

Patents pending 

  1. W. Adamczyk, R. Białecki Z. Ostrowski, P. 429973, Sposób i przyrząd pomiarowy do wyznaczania dyfuzyjności cieplnej materiałów stałych 20.05.2019
  2. W. Adamczyk, R. Białecki, T. Kruczek, Method for Measuring thermal conductivity, 11195498.8-1559, 29.04.2013,  (Patent Number(s): WO2013092775-A1, CN104040327A, US20140301424, International Patent Classification, European, US and Japan
  3. R.Czyba, M. Górski, W. Adamczyk, Z. Ostrowski, R. Białecki, Unmanned flying platform with docking option (Bezzałogowa platforma latająca z modułem dokowania) Patent  P423709 filed 04.12. 2017 Polish Patent Office
  4. R. Czyba, R. Białecki, M. Górski, Z. Ostrowski, G. Przybyła, W. Adamczyk, G. Kruczek, Method and apparatus for diagnostics of state of connection of engineering objects with its reinforcement, specifically in nondestructive inspection of external composite overlays (Sposób i przyrząd do diagnostyki stopnia zespojenia konstrukcji inżynierskiej z jej wzmocnieniem, zwłaszcza w badaniach nieniszczących wzmocnień w postaci zewnętrznych nakładek kompozytowych, Patent : P.425878, filed 2018-06-11, Polish Patent Office
  5. R. Czyba, R. Białecki, M. Górski, Z. Ostrowski, G. Przybyła, W. Adamczyk, G. Kruczek Method of assessment of fittnes of engineering objects, specifically large scale structures (Sposób oceny stanu technicznego konstrukcji inżynierskich zwłaszcza wielkogabarytowych) Patent  P.425877, 12.06.2018 Polish Patent Office

Patents granted

  1. A. Szlęk, W. Adamczyk, R. Białecki, A. Klimanek, P. Kozolub and G. Węcel PL 409132 Sposób modyfikacji kotłów wodnych i parowych (Method of water and steam boiler modification) in Polish, 07.05.2018 
  2. W. Adamczyk, R. Białecki and T. Kruczek, PL 227 020, Sposób wyznaczania współczynnika przewodności cieplnej próbki materiału stałego anizotropowego o dowolnym kształcie metodą równoczesnego wielokierunkowego pobudzenia cieplnego.(Method of determining heat conductivity of an anisotropic solid material sample of arbitrary shape using multidirectional heat excitation) in Polish 31.10.2017
  3. W. Adamczyk, R. Białecki, P. Kozołub and T Kruczek PL 227017, Stanowisko i sposób do pomiaru współczynnika przewodności cieplnej materiału stałego o nieregularnym kształcie oraz materiału warstwy pokrycia (Apparatus and method for measuring heat conductivity of solid of irregular shape and material of coating) in Polish, 31.10.2017. WUP 10/17
  4. R.A. Białecki, A. Szlęk, W. Hummer and G. Wojciechowski, PL 214629, Sposób opalania baterii koksowniczej, (Method of firing a coke oven battery) in Polish, 30.08.2013, WUP 08/13
  5. A.Szlęk, R. Białecki and R. Weber PL 213191 Sposób spalania paliw z bezpośrednią generacją energii elektrycznej (Method of fuel combustion with direct electrical energy generation) in Polish 30.01.2013 WUP 01.13
  6. Z. Golak J. Smołka, R. Przyłucki, P. Buliński, M. Palacz, M. Siwiec, R. Białecki and L. Blacha, P.232714  Zimny tygiel zwłaszcza do topienia reaktywnych metali (cold curicible specifically for melting reactive metals) in Polish 19.07.2019,