Publications

Articles included in the JCR list

  1. G. Brus, H. Iwai, M. Mozdzierz, Y. Komatsu, M. Saito, H. Yoshida, JS. Szmyd, Combining structural, electrochemical, and numerical studies to investigate the relation between microstructure and the stack performance, Journal of Applied Electrochemistry. 47 (2017) 979–989. doi:10.1007/s10800-017-1099-5.
  2. M. Tomiczek, R. Kaczmarczyk, M. Moździerz, G. Brus, A numerical analysis of heat and mass transfer during the steam reforming process of ethane, Heat and Mass Transfer, 54 (2018) 2305–2314 doi:10.1007/s00231-017-2209-y
  3. M. Moździerz, M. Chalusiak, S. Kimijima, JS. Szmyd, G. Brus,  An afterburner-powered methane/steam reformer for solid oxide fuel cell application, Heat and Mass Transfer, 54 (2018) 2331–2341doi: 10.1007/s00231-018-2331-5
  4. T. Prokop, K. Berent, H. Iwai, J.S. Szmyd, G. Brus A three-dimensional heterogeneity analysis of electrochemical energy conversion in SOFC anodes using electron nanotomography and mathematical modelingInternational Journal of Hydrogen Energy, 43 (2018) 10016-10030doi: 10.1016/j.ijhydene.2018.04.023
  5. M. Pająk, M. Moździerz, M. Chalusiak, S. Kimijima, J.S. Szmyd, G. Brus A numerical analysis of heat and mass transfer processes in a macro-patterned methane/steam reforming reactorInternational Journal of Hydrogen Energy, 43 (2018) 20474-20487 doi: 10.1016/j.ijhydene.2018.09.058
  6. T. Prokop, K. Berent, JS. Szmyd, G. Brus A Three-Dimensional Numerical Assessment of Heterogeneity Impact on a Solid Oxide Fuel Cell’s Anode PerformanceCatalyst, 8 (2018) 503 doi:10.3390/catal8110000
  7. M. Chalusiak , M. Wrobel , M. Mozdzierz , K. Berent ,J.S. Szmyda , S. Kimijima , G. Brus, A numerical analysis of unsteady transport phenomena in a Direct Internal Reforming Solid Oxide Fuel Cell, International Journal of Heat and Mass Transfer 131 (2019) 1032-1051 doi:10.1016/j.ijheatmasstransfer.2018.11.113
  8. D. Peck, M. Wrobel, M. Perkowska, G. Mishuris Fluid velocity based simulation of hydraulic fracture: a penny shaped model – part I: the numerical algorithm. (2018) Meccanica, 53(15): 3615-3635 doi.org/10.1007/s11012-018-0899-y
  9. D. Peck, M. Wrobel, M. Perkowska, G. Mishuris Fluid velocity based simulation of hydraulic fracture: new, accurate semi-analytical benchmarks for an impermeable solid. (2018) Meccanica, 53(15): 3637-3650 doi.org/10.1007/s11012-018-0903-6
  10. M. Mozdzierz, K. Berent, S. Kimijima, J.S. Szmyd and G. Brus, A Multiscale Approach to the Numerical Simulation of the Solid Oxide Fuel Cell (2019) Catalysts (3):253 https://doi.org/10.3390/catal9030253
  11. S. Buchaniec, A. Sciażko, M. Moździerz, G. Brus A Novel Approach to the Optimization of a Solid Oxide Fuel Cell Anode Using Evolutionary Algorithms (2019) IEEE Access 7:34361-34372 DOI: 10.1109/ACCESS.2019.2904327
  12. M. Pajak, S. Buchaniec, S. Kimijima, J.S. Szmyd, G. Brus, A multiobjective optimization of a catalyst distribution in a methane/steam reforming reactor using a genetic algorithm (2020) International Journal of Hydrogen Energy. 1–15. doi:10.1016/j.ijhydene.2020.02.228.
  13. G. Brus, P.F. Raczkowski, M. Kishimoto, H. Iwai, J. Szmyd, A microstructure-oriented mathematical model of a direct internal reforming solid oxide fuel cell, Energy Conversion and Management. 213 (2020) 112826. doi:10.1016/j.enconman.2020.112826.
  14. Śreniawski, K. K., Chalusiak, M., Moździerz, M., Szmyd, J. S. & Brus, G. Transport Phenomena in a Banded Solid Oxide Fuel Cell Stack—Part 1: Model and Validation. (2023) Energies 16, 4511 10.3390/en16114511.

arXiv

  1. M. Wrobel and G. Brus arXiv Mathematical modelling of Solid Oxide Fuel Cells revisited – a modified formulation of the problem: 1901.05509.
  2. S. Buchaniec, M. Gnatowski and G. Brus arXiv An Analysis of an Integrated Mathematical Modeling — Artificial Neural Network Approach for the Problems with a Limited Learning Dataset: 1911.03404v2.

Conference papers

  1. M. Pająk, G. Brus, JS Szmyd, Numerical analysis of the catalyst distribution optimization in a steam reforming reactor using genetic algorithm, Proceedings of 6th International Conference on Contemporary Problems of Thermal Engineering, Online, CPOTE2020
  2. Sz. Buchaniec, M. Gnatowski, G. Brus, Modeling electrochemical reaction in solid oxide fuel cell’s anode with an artificial neural network-supported numerical simulation, Proceedings of 6th International Conference on Contemporary Problems of Thermal Engineering, Online, CPOTE2020
  3. M. Moździerz, T. Prokop, K. Śreniawski, M. Chalusiak, G. Brus, From micro to macroscale: Multiscale aspects of solid oxide fuel cell stack simulations, Proceedings of 6th International Conference on Contemporary Problems of Thermal Engineering, Online, CPOTE2020
  4. M. Chalusiak, K. Berent, K. Śreniawski, G. Brus, Interconnect-free (banded) solid oxide fuel cell stack, Proceedings of 6th International Conference on Contemporary Problems of Thermal Engineering, Online, CPOTE2020
  5. Sz. Buchaniec, M. Gnatowski, G, Brus, Tailoring SOFC electrodes’ microstructure using 3D representative volume element generation and evolutionary computing, Proceedings of 6th International Conference on Contemporary Problems of Thermal Engineering, Online, CPOTE2020
  6. G. Brus, P. Raczkowski, H. Iwai, JS. Szmyd, A microstructure-oriented numerical model of a direct internal reforming SOFC, Proceedings of 32nd International Conference on Efficiency, Costs, Optimization, Simulation and Environmental Impact of Energy Systems ECOS2019
  7. M. Pajak, S. Buchaniec, S. Kimijima, J.S. Szmyd, G. Brus, Design optimization of a methane/steam reforming reactor using an evolutionary algorithm, Proceedings of 32nd International Conference on Efficiency, Costs, Optimization, Simulation and Environmental Impact of Energy Systems ECOS2019
  8. M. Mozdzierz, J.S. Szmyd, G. Brus, A multiscale approach to the numerical simulation of the SOFC stack, Proceedings of 13th EUROPEAN SOFC & SOE FORUM, (2018)
  9. G. Brus, H. Iwai, H. Yoshida, J.S. Szmyd, Microstructure oriented model of direct internal reforming SOFCBulletin of the Polish Hydrogen and Fuel Cell Association, 11 (2017) 43
  10. M. Chalusiak, G. Brus, M. Mozdzierz, K. Berent,  S. Kimijima, Dynamic Characteristics of a direct internal reforming solid oxide fuel cell to address fuel starvation problemBulletin of the Polish Hydrogen and Fuel Cell Association, 11 (2017) 47
  11. M. Chalusiak, G. Brus, K. Berent, M. Mozdzierz, J.S. Szmyd, Development of solid oxide fuel cell manufacturing methodology using robocasting technologyBulletin of the Polish Hydrogen and Fuel Cell Association, 11 (2017) 46

Granted patents 

  1. G. Brus, High-temperature solid oxide fuel cell stack, 2017, PL-234427, Int. Cl. H01M 8/2432 (2016.01), H01M 8/2475 (2016.01)