Publications of the Mathematical Modelling Group on
combustion and fluidizedbed flow
Peer reviewed articles in the impacted scientific periodicals

M. Beneš, P. Eichler, R. Fučík, J. Hrdlička, J. Klinkovský, M. Kolář,
T. Smejkal, P. Skopec, J. Solovský, P. Strachota, R. Straka and A.
Žák,
Experimental and numerical investigation of air flow through the distributor plate in a
laboratoryscale model of a bubbling fluidized bed boiler.
Japan J. Indust. Appl. Math. online (2022).
https://doi.org/10.1007/s1316002200518x

M. Beneš, P. Eichler, J. Klinkovský, M. Kolář, J. Solovský, P.
Strachota, A. Žák: Numerical simulation of fluidization for application
in oxyfuel combustion,
Discrete and Continuous Dynamical Systems S, 2021, 14(3)
769783, doi: 10.3934/dcdss.2020232, IF 1.233.

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, issue 8, pages 833846, 2015 (Impact factor 0.567).

Straka R., Makovička J., Beneš M.,
Numerical simulation of NO production in pulverized coal fired furnace.
Environment Protection Engineering Vol. 37 2011 No. 2, 1322. Impact factor 0.427

Straka R. and Makovička J. Model of pulverized coal combustion in furnace. Kybernetika Vol. 43 (2007), No. 6, 879891, ISSN: 00235954, Impact factor 0.293
Articles in the ISI listed conference proceedings

P. Strachota, M. Beneš, P. Eichler, J. Klinkovský, M. Kolář, J. Solovský, A.
Žák: Modeling and Simulation of Bed Hydrodynamics in Oxyfuel Fluidized
Bed Boilers. In Numerical Mathematics and Advanced Applications ENUMATH
2019, Vermolen, Fred J., Vuik, Cornelis (Eds.), Lecture Notes in
Computational Science and Engineering vol. 139, Sequence #91, Springer
International Publishing, 2021.

M. Beneš, P. Eichler, J. Klinkovský, M. Kolář, T. Smejkal, J. Solovský, P.
Strachota, A. Žák, J. Hrdlička, P. Skopec. CFD Simulation and
Experimental Analysis of Fluidization in a Model of an Oxyfuel Fluidized
Bed Boiler. In Proceedings of the Conference Algoritmy 2020, Editors: P.
Frolkovič, K. Mikula and D. Ševčovič. SPEKTRUM, Slovak University of
Technology in Bratislava, 2020, pp. 101110.

Bauer P., Klement V., Strachota P. and Žabka V. Numerical Study of Flow in a 2D Boiler.
In Proceedings of Algoritmy 2012, 19th Conference on Scientific Computing, Vysoké Tatry  Podbanské, Slovakia,
September 914, 2012, Slovak University of Technology in Bratislava, Publishing House of STU, 2012, pp. 172178, ISBN 9788022737425

Straka R., Makovička J. and Beneš M.
Numerical model of airstaging and OFA in PC boiler,
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. 350361, ISBN 9788022730327
Peer reviewed articles in the nonimpacted scientific periodicals

Tomica V.
Reactiondiffusion equations in combustion,
COE Lecture Note, vol. 36 pp. 8493.
Faculty of Mathematics, Kyushu University Fukuoka, ISSN 18814042

Straka R., Beneš M.
Numerical simulation of NO production in airstaged pulverized coal fired furnace.
In Belosevic S. V., Ed., Numerical Analysis of Heat and Mass Transfer in Energy Conversion Systems, The Open Thermodynamics Journal, Vol. 4, 2010, ISSN: 1874396X

Makovička J., Beneš M. and Havlena V.
Model of Turbulent Coal Combustion, In: Beneš M., Kimura M. and Nakaki T., Eds.
Proceedings of Czech Japanese Seminar in Applied Mathematics 2005, COE Lecture Note Vol.3,
Faculty of Mathematics, Kyushu University Fukuoka, October 2006, ISSN 18814042, pp. 95105
Articles in the conference proceedings

P. Eichler, Fluid Flow Simulations through Distributor Plate Using Cumulant
Lattice Boltzmann Mehtod, In: P. Ambrož, Z. Masáková (Eds.), Doktorandské
dny 2021, 2021, pp. 2324

Beneš, M., Strachota, P., Máca, R., Havlena, V. and Mach, J.
A Quasi1D Model of Biomass CoFiring in a Circulating Fluidized Bed Boiler.
In Finite Volumes for Complex Applications VII  Elliptic, Parabolic, and Hyperbolic Problems, Fuhrmann, J.; Ohlberger, M. & Rohde, C. (Eds.),
Springer, 2014, 78, pp. 791799, ISBN 9783319055909.

Straka R. , Makovička J., Beneš M. and Havlena V. Numerical model of pulverized coal combustion in furnace, in ExHFT7:
7th world conference on Experimental Heat Transfer, Fluid Mechanics, and Thermodynamics : 28 June  03 July 2009, Krakow,
Poland : book of abstracts / eds: J. S. Szmyd, J. Spałek, T. A. Kowalewski. Krakow: AGH University of Science
and Technology Press, 2009. ISBN 9788374642354.

Makovička J. and Havlena V., Finite Volume Numerical Model of Coal Combustion, in Beneš M., Mikyška J. and Oberhuber T., editors,
Proceedings of the Czech Japanese Seminar in Applied Mathematics. Prague: Faculty of Nuclear Sciences and Physical Engineering,
Czech Technical University in Prague, 2005. ISBN 8001031810, pp. 106116

Makovička J., Havlena V. and Beneš M., On a model of coal combustion, in ALGORITMY 2005, peer reviewed Proceedings of contributed papers and posters,
pp. 1221, Publ. house of STU, 2005, ISBN 8022721921
Industrial Technical Reports
 Beneš M., Strachota P. and Žák, A. Xhaust: Multiphase Flow
and Phase Transitions in Automobile Exhaust Pipe, Collection of Reports
for Milestone V. Technical Report MMG 118. Department of Mathematics,
Faculty of Nuclear Sciences and Physical Engineering, Czech Technical
University in Prague, December 31, 2018. Confidential.
 Beneš M., Strachota P. and Žák, A. Xhaust: Multiphase Flow
and Phase Transitions in Automobile Exhaust Pipe, Collection of Reports
for Milestone IV. Technical Report MMG 517. Department of Mathematics,
Faculty of Nuclear Sciences and Physical Engineering, Czech Technical
University in Prague, December 31, 2017. Confidential.

Beneš M., Strachota P. and Žák, A. Xhaust: Multiphase Flow and Phase Transitions in Automobile Exhaust Pipe,
Collection of Reports for Milestone III. Technical Report MMG 815.
Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering,
Czech Technical University in Prague, December 31, 2016. Confidential.

Beneš M., Strachota P., Kirda D, and Žák, A.
Xhaust: Progress in the Development of the Quasi1D CFD Model of Automobile Exhaust Pipe Flow with Condensation.
Technical Report MMG 115. Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, July 31, 2015. Confidential.

Beneš M., Strachota P., Kirda D, and Žák, A.
Xhaust: Annual Report on the Development of the Quasi1D CFD Model of Automobile Exhaust Pipe Flow with Condensation.
Technical Report MMG 315. Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, July 31, 2015. Confidential.

Beneš M., Strachota P. and Mach J. A Quasi1D TwoPhase Model for Exhaust Pipe Flow with Condensation. Technical Report MMG 114. Department of Mathematics,
Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, February 13, 2014. Confidential.

Beneš M., Strachota P., Žabka V. and Oberhuber T. Design and Computational Implementation of A Quasi1D TwoPhase Fluid Dynamics Model for Exhaust Pipe Flow with Condensation.
Technical Report MMG 514. Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, November 30, 2014. Confidential.

Beneš M., Strachota P., Žabka V. and Oberhuber T. A Quasi1D TwoPhase Model for Exhaust Pipe Flow with Condensation  Instructions for Use of the Xhaust
Software Package Version 0.5 (Milestone I). Technical Report MMG 614. Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering,
Czech Technical University in Prague, November 30, 2014. Confidential.

Beneš M., Strachota P., Máca R., Havlena V. and Mach J.
A Quasi1D Model of Biomass CoFiring in a Circulating Fluidized Bed Boiler.
Functional Design Specification MMG 113, project TACR No. TA01020871, Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering,
Czech Technical University in Prague, 2013 (confidential).

Beneš M., Strachota P., Mach J. Hoang D. H. and Havlena V.
Coal and Biomass Particle Burnout Models for use in Pulverized Coal and Fluidized Bed Combustion Simulations.
Functional Design Specification MMG 213, project TACR No. TA01020871, Department of Mathematics,
Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, 2013 (confidential).

Beneš M., Strachota P., Mach J., Hoang D. H., Havlena V., Oberhuber T., Fučík R., Bauer P., Žabka V., Klement V. and Máca R.
Simulation of Biomass CoFiring and Pollutant Development in an Industrial Pulverized Coal Boiler with Air Staging Control.
Functional Design Specification MMG 312, project TACR No. TA01020871, Department of Mathematics,
Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, 2013 (confidential).

Oberhuber T., Klement V., Žabka V., Máca R. and Fučík R.
Numerical study of singlephase flow with different Reynolds numbers in the combustion chamber of a FBC boiler.
Technical Report MMG 413, project TACR No. TA01020871, Department of Mathematics,
Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, 2013 (confidential).

Oberhuber T., Máca R. and Fučík R.
Numerical study of twophase flow in the combustion chamber of a FBC boiler.
Technical Report MMG 513, project TACR No. TA01020871, Department of Mathematics,
Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, 2013 (confidential).

Hoang Dieu H., Mach J. Fluidized Bed Design and Applications.
Functional Design Specification MMG 112, Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering,
Czech Technical University in Prague, 2012

Máca R. and Strachota P. Solid Gas Flow Onedimensional Numerical Simulation. Functional Design Specification MMG 212,
Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, 2012

Bauer P., Klement V., Oberhuber T., Žabka V. Incompressible Twodimensional Fluid Flow in Combustion Chamber Geometry.
Technical Report MMG 312, Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering,
Czech Technical University in Prague, 2012

Fučík R., Oberhuber T. Twophase Twodimensional Flow in Combustion Chamber Geometry.
Functional Design Specification MMG 412, Department of Mathematics, Faculty of Nuclear Sciences and Physical Engineering,
Czech Technical University in Prague, 2012

Beneš M. Onedimensional Compressible Fluid Flow and Fluidized Bed Modeling. Technical Report MMG 512, Department of Mathematics,
Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, 2012
 Straka R. Fluidized Bed Furnaces, Internal report No. 107, MPO No. 1HPK/22, Department of Mathematics, FNSPE CTU in Prague, 2007
 Mach J. Structures in Premixed Gas Mixture Combustion, Internal report No. 207 (in Czech), MPO No. 1HPK/22, Department of Mathematics, FNSPE CTU in Prague, 2007

Bašus, O. and Straka R., On a Simple Model of NOx Production during Coal Combustion, Internal report No. 105, MPO No. 1HPK/22,
Department of Mathematics, FNSPE CTU in Prague, 2005

Straka R., Turbulent Chemistry in Combustion and NOx Formation, Internal report No. 205, MPO No. 1HPK/22, Department of Mathematics,
FNSPE CTU in Prague, 2005

Makovička, J., Straka, R., Oberhuber, T., Beneš, M., V., Industrial simulation of multiphase flow by means of continuum mechanics,
peer reviewed Technical Report No.104, MPO No. 1HPK/22, Department of Mathematics, FNSPE CTU Prague, 2004

Straka, R., Reaction processes in NOX production, peer reviewed Technical Report No.104, MPO No. 1HPK/22, Department of Mathematics,
FNSPE CTU Prague, 2004