Publikace

Více na mém profilu na ResearchGate

2024:

  • Strachota, P., Nývlt, S., Wodecki, A., Rataj, J.: Numerically efficient determination of kinetic parameters of the VR-1 nuclear reactor based on experimental data and ODE-constrained optimization. Ann. Nucl. Energy 211 (2025), 111023. Impact factor (2023): 1.9. https://doi.org/10.1016/j.anucene.2024.111023
  • Strachota, P.: DEM Simulations of Settling of Spherical Particles using a Soft Contact Model and Adaptive Time Stepping. In: P. Frolkovič, K. Mikula, D. Ševčovič (eds.) ALGORITMY 2024, 22nd Conference on Scientific Computing, Vysoké Tatry - Podbanské, Slovakia, March 15 - 20, 2024. Proceedings of contributed papers, pp. 225–234. JSMF, 2020. ISBN: 978-80-89829-33-0, http://www.iam.fmph.uniba.sk/amuc/ojs/index.php/algoritmy/article/view/2176.
  • Eichler, P., Fučík, R., Strachota, P.: Investigation of mesoscopic boundary conditions for lattice Boltzmann method in laminar flow problems. Comput. Math. Appl. 173 (2024), pp. 87-101. https://doi.org/10.1016/j.camwa.2024.08.009. Impact factor (2023): 2.9.
  • Tichý, M., Zmeškal, M., Huml, O., Bílý, T., Losa, E., Strachota, P., Czakoj, T., Urban, T.: Measurements of AmBe and PuC spectra using EJ309 and stilbene scintillators. Nuclear Inst. and Methods in Physics Research A 1062 (2024), 169179. https://doi.org/10.1016/j.nima.2024.169179. Impact factor (2023): 1.4.

2023:

  • Jakubec, T., Strachota, P.: GTMesh: A Highly Efficient C++ Template Library for Numerical Schemes on General Topology Meshes. Appl. Sci 13 (2023), 8748, https://doi.org/10.3390/app13158748. Impact factor (2022): 2.7.
  • Wodecki, A., Strachota, P., Oberhuber, T., Škardová, K., Balázsová, M., Bohatý, M.: Numerical optimization of the Dirichlet boundary condition in the phase field model with an application to pure substance solidification. Comput. Math. Appl. 145 (2023), pp. 90-105, ISSN: 0898-1221, https://doi.org/10.1016/j.camwa.2023.06.007. Impact factor (2022): 3.218.
  • Wodecki, A., Balázsová, M., Strachota, P., Oberhuber, T.: Existence of Optimal Control for Dirichlet Boundary Optimization in a Phase Field Problem. J Dyn Control Syst 29 (2023), pp. 1425-1447. https://doi.org/10.1007/s10883-023-09642-4. Impact factor (2022): 0.9.
  • Beneš, M., Eichler, P., Hrdlička, J., Klinkovský, J., Kolář, M., Smejkal, T., Skopec, P., Solovský, J., Strachota, P., Žák, A.: Experimental validation of multiphase particle-in-cell simulations of fluidization in a bubbling fluidized bed combustor. Powder Technology 416 (2023), 118204. https://doi.org/10.1016/j.powtec.2022.118204. Impact factor (2021): 5.64.

2022:

  • Beneš, M., Eichler, P., Fučík, R., Hrdlička, J., Klinkovský, J., Kolář, M., Smejkal, T., Skopec, P., Solovský, J., Strachota, P., Straka, R., Žák, A.: Experimental and numerical investigation of air flow through the distributor plate in a laboratory-scale model of a bubbling fluidized bed boiler. Japan J. Indust. Appl. Math. 39 (2022), pp. 943–958. https://doi.org/10.1007/s13160-022-00518-x. Impact factor (2021): 0.682.

2021:

  • Strachota, P., Wodecki, A., Beneš, M.: Focusing the latent heat release in 3D phase field simulations of dendritic crystal growth. Modelling Simul. Mater. Sci. Eng. 29 065009 (2021). ISSN: 0965-0393. https://doi.org/10.1088/1361-651X/ac0f55. Impact factor (2020): 2.248.
  • Beneš, M., Eichler, P., Klinkovský, J., Kolář, M., Solovský, J., Strachota, P., Žák, A.: Modeling and simulation of bed dynamics in oxyfuel fluidized bed boilers. In: F.J. Vermolen, C. Vuik (eds.) Numerical Mathematics and Advanced Applications ENUMATH 2019, Lecture Notes in Computational Science and Engineering, vol. 139, pp. 919–928. Springer International Publishing (2021), ISBN 978-3-030-55873-4. https://www.doi.org/10.1007/978-3-030-55874-1_91
  • Beneš, M., Eichler, P., Klinkovský, J., Kolář, M., Solovský, J., Strachota, P., Žák, A. Numerical Simulation of Fluidization for Application in Oxyfuel Combustion. Discrete and Continuous Dynamical Systems. Series S. 14(3) (2021), pp. 769-783. ISSN 1937-1632. https://www.doi.org/10.3934/dcdss.2020232. Impact factor (2019): 1.233.

2020:

  • Beneš, M., Eichler, P., Klinkovský, J., Kolář, M., Smejkal, T., Solovský, J., Strachota, P., Žák, A., Hrdlička, J., Skopec, P.: CFD simulation and experimental analysis of fluidization in a model of an oxyfuel fluidized bed boiler. In: P. Frolkovič, K. Mikula, D. Ševčovič (eds.) ALGORITMY 2020, 21th Conference on Scientific Computing, Vysoké Tatry - Podbanské, Slovakia, September 10 - 15, 2020. Proceedings of contributed papers and posters, pp. 101–110. SPEKTRUM STU (2020)
  • Strachota, P., Wodecki, A., Beneš, M. Efficiency of A Hybrid Parallel Algorithm For Phase-Field Simulation of Polycrystalline Solidification in 3D. In: P. Frolkovič, K. Mikula, D. Ševčovič (eds.) ALGORITMY 2020, 21th Conference on Scientific Computing, Vysoké Tatry - Podbanské, Slovakia, September 10 - 15, 2020. Proceedings of contributed papers and posters, pp. 131–140. SPEKTRUM STU (2020)

2018:

  • Strachota, P., Wodecki, A. High Resolution 3D Phase Field Simulations of Single Crystal and Polycrystalline Solidification. Acta Physica Polonica A 134(3) (2018), pp. 653–657. https://doi.org/10.12693/APhysPolA.134.653. Impact factor (2017): 0.857.
  • Strachota, P., Beneš, M. Error estimate of the finite volume scheme for the Allen–Cahn equation. BIT Numer. Math. 58 (2) (2018), pp. 489-507, ISSN: 0006-3835, https://doi.org/10.1007/s10543-017-0687-4. Impact factor (2016): 1.670.
  • Beneš, M., Fučík, R., Havlena, V., Klement, V., Kolář, M., Polívka, O., Solovský, J., Strachota, P. An Efficient and Robust Numerical Solution of the Full-Order Multiscale Model of Lithium-Ion Battery, Mathematical Problems in Engineering, vol. 2018, Article ID 3530975, 12 pages, 2018. https://doi.org/10.1155/2018/3530975. Impact factor (2017): 0.802.

2017:

  • Mach, J., Beneš, M., and Strachota, P. Nonlinear Galerkin Finite Element Method Applied to the System of Reaction-Diffusion Equations in One Space Dimension. Comput. Math. Appl. 73 (2017), pp. 2053-2065, ISSN: 0898-1221, Impact factor (2015): 1.398.

2016:

  • Strachota, P.,  Beneš, M. A Hybrid Parallel Numerical Algorithm for Three-Dimensional Phase Field Modeling of Crystal Growth. In ALGORITMY 2016, 20th Conference on Scientific Computing, Vysoké Tatry - Podbanské, Slovakia, March 14 - 18, 2016, Proceedings of contributed papers and posters, Comenius University, Bratislava, 2016, pages 23-32.

2015:

  • Bauer, P., Beneš, M., Fučík, R., Hoang, H. D., Klement, V., Máca, R., Mach, J., Oberhuber, T., Strachota, P., Žabka, V., and Havlena, V. Numerical Simulation of Flow in Fluidized Beds. Discrete. Cont. Dyn. S. S 8 (2015), pp. 833-846, Impact factor (2014): 0.567.

2014:

  • Beneš, M., Strachota, P., Máca, R., Havlena, V. & Mach, J. A Quasi-1D Model of Biomass Co-Firing in a Circulating Fluidized Bed Boiler. In Finite Volumes for Complex Applications VII - Elliptic, Parabolic, and Hyperbolic Problems, ed. Fuhrmann, J.; Ohlberger, M. & Rohde, C., Springer, 2014, 78, pp. 791-799, ISBN 978-3-319-05590-9.

2013:

  • Strachota P., Beneš M. Design and Verification of the MPFA Scheme for Three-Dimensional Phase Field Model of Dendritic Crystal Growth. In Numerical Mathematics and Advanced Applications, Proceedings of ENUMATH 2011, the 9th European Conference on Numerical Mathematics and Advanced Applications, Leicester, September 2011, ed. Cangiani A., Davidchack R. L., Georgoulis E., Gorban A. N., Levesley J., and Tretyakov M. V. Springer Berlin Heidelberg, pp. 459-467, ISBN 978-3-642-33133-6.
  • Beneš M., Oberhuber T., Strachota P., Straka R., Havlena V. Mathematical Modelling of Combustion and Biofuel Co-firing in Industrial Steam Generators. RIMS Kokyuroku B35 (2012), pp. 141-157, ISSN: 1880-2818, Kyoto, Japan.

2012:

  • Strachota P., Beneš M,  Tintěra J. Towards Clinical Applicability of the Diffusion-based DT-MRI Visualization Algorithm. J. Vis. Commun. Image R. 23 (2012), pp. 387-396, ISSN: 1047-3203,  Impact factor (2011): 1.122.
  • Strachota P., Beneš M., Grottadaurea M., Computational Investigation and Assessment of Numerical Schemes for Anisotropic Diffusion Equations, in Proceedings of Czech Japanese Seminar in Applied Mathematics 2010, M. Beneš, M. Kimura, and S. Yazaki, eds., vol. 36 of COE Lecture Note, Faculty of Mathematics, Kyushu University Fukuoka, 2012, ISSN 1881-4042, pp. 73-83.
  • Bauer P., Klement V., Strachota P., Žabka V. Numerical Study of Flow in a 2D Boiler. In Algoritmy 2012, Proceedings of contributed papers and posters, ed. Handlovičová A., Minarechová Z., and Ševčovič D. Slovak University of Technology in Bratislava, Publishing House of STU, 2012, pp. 172--178, ISBN 978-80-227-3742-5.
  • Beneš M., Oberhuber T., Strachota P., Straka R., Havlena V. Mathematical Modelling of Combustion and Biofuel Co-firing in Industrial Steam Generators. RIMS Kôkyûroku Bessatsu B35 (2012), pp. 141-157, ISSN: 1880-2818. http://hdl.handle.net/2433/198093

2011:

  • Strachota, P. & Beneš, M. A Multipoint Flux Approximation Finite Volume Scheme for Solving Anisotropic Reaction--Diffusion Systems in 3D. In Finite Volumes for Complex Applications VI - Problems & Perspectives, ed. Fořt, J.; Fürst, J.; Halama, J.; Herbin, R. & Hubert, F. Springer, 2011, pp. 741-749, ISBN 978-3-642-20670-2.

2010:

  • Strachota, P., Beneš, M., Grottadaurea M., and Tintěra J.. Analysis of the Parallel Finite Volume Solver for the Anisotropic Allen-Cahn Equation in 3D. In Numerical Mathematics and Advanced Applications, Proceedings of ENUMATH 2009, the 8th European Conference on Numerical Mathematics and Advanced Applications, Uppsala, July 2009, ed. Kreiss G., Lötstedt P., Målqvist A., and Neytcheva M. Springer Berlin Heidelberg, 2010, pp. 839-846, ISBN 978-3-642-11794-7.

2009:

  • Strachota, P. Implementation of the MR Tractography Visualization Kit Based on the Anisotropic Allen-Cahn Equation. Kybernetika Vol. 45 (2009), No. 4, 657--669, ISSN: 0023-5954, Impact factor (2008): 0.293
  • Strachota, P. Antidissipative Numerical Schemes for the Anisotropic Diffusion Operator in Problems for the Allen-Cahn Equation, in Algoritmy 2009, Proceedings of contributed papers and posters, ed. Handlovičová A., Frolkovič P., Mikula K. and Ševčovič D. Slovak University of Technology in Bratislava, Publishing House of STU, 2009, pp. 134--142, ISBN 978-80-227-3032-7 (ISI listed)
  • Strachota, P. Application of Anisotropic Diffusion in MR Tractography. In: Science and Supercomputing in Europe - Report 2008, CINECA Consorzio Interuniversitario, Bologna 2009, pp. 279-284. ISBN: 978-88-86037-22-8

2008:

  • Strachota, P. Anisotropic diffusion in mathematical visualization, in HPC-Europa: Science and Supercomputing in Europe, Report 2007, Eds. P. Alberigo, G. Erbacci, F. Garofalo, CINECA Consortio Interuniversitario, ISBN 978-88-86037-21-1, pp. 826--831.
  • Beneš, M., Strachota, P., and Čulík, Z. Quantitative Aspects of Microstructure Formation in Solidification, in Multiscale Materials Modeling 2008, ed. El-Azab A. Florida State University, 2008, pp. 746--751.

2007:

  • Strachota, P., Vector field visualization by means of anisotropic diffusion, in Proceedings of Czech Japanese Seminar in Applied Mathematics 2006, M. Beneš, M. Kimura, and T. Nakaki, eds., vol. 6 of COE Lecture Note, Faculty of Mathematics, Kyushu University Fukuoka, 2007, ISSN 1881-4042, pp. 193-205.