Wykaz publikacji wybranego autora

Grzegorz Brus, dr hab. inż., prof. AGH

profesor nadzwyczajny

Faculty of Energy and Fuels
WEiP-kppe


  • 2018

    [dyscyplina 1] dziedzina nauk inżynieryjno-technicznych / inżynieria środowiska, górnictwo i energetyka


[poprzednia klasyfikacja] obszar nauk technicznych / dziedzina nauk technicznych / energetyka


Identyfikatory Autora Informacje o Autorze w systemach zewnętrznych

ORCID: 0000-0003-4911-5880 orcid iD

ResearcherID: S-2491-2017

Scopus: 23481026900

PBN: 5e70922c878c28a047391242

OPI Nauka Polska

System Informacyjny AGH (SkOs)




1
  • A comparative study of two various empirical methodologies for deriving kinetics of methane/steam reforming reaction
2
  • A comparative study of two various empirical methodologies for deriving kinetics of methane/steam reforming reaction
3
4
5
  • A microstructure-oriented numerical model of a direct internal reforming SOFC
6
  • A multiobjective optimization of a catalyst distribution in a methane/steam reforming reactor using a genetic algorithm
7
  • A multiscale approach to the numerical simulation of the SOFC stack
8
  • A multiscale approach to the numerical simulation of the solid oxide fuel cell
9
  • A multiscale model of transport phenomena in a signle planar solid oxide fuel cell
10
  • A novel approach to improve the mathematical modelling of the internal reforming process for solid oxide fuel cells using the orthogonal least squares method
11
12
  • A novel approach to the optimization of a solid oxide fuel cell anode using evolutionary algorithms
13
  • A numerical analysis of heat and mass transfer during the steam reforming process of ethane
14
15
  • A numerical analysis of transport phenomena in a banded solid oxide fuel cell stack
16
17
  • A parametric analysis of concentration losses in an anode of a solid oxide fuel cell
18
  • A parametric analysis of concentration losses in an anode of a Solid Oxide Fuel Cell
19
  • A parametric analysis of microscale transport phenomena in an SOFC anode
20
  • A parametric analysis of thermodynamic losses in an anode of a solid oxide fuel cell
21
  • A post-mortem microstructure analysis of a solid oxide fuel cell stack – the impact of the long-term operation
22
  • A surrogate model of the Butler-Volmer equation for the prediction of thermodynamic losses of solid oxide fuel cell electrode
23
  • A three-dimensional analysis of localized transport phenomena in SOFC anode
24
25
  • A three-dimensional microstructure-scale simulation of a solid oxide fuel cell anode – the analysis of stack performance enhancement after a long-term operation