| Kinetics of pyrolysis and properties of carbon black from a scrap tire |
422 |
– |
426 |
| Z. Koreňová, M. Juma, J. Annus, J. Markoš, and L’. Jelemenský |
Vol. 60, 6 |
| Multiple steady states in a CSTR with total condenser: Comparison of equilibrium and nonequilibrium models |
432 |
– |
440 |
| Z. Švandová, J. Markoš, and L’. Jelemenský |
Vol. 60, 6 |
| Influence of biomass on hydrodynamics of an internal loop airlift reactor |
441 |
– |
445 |
| M. Juraščík, M. Hucík, I. Sikula, J. Annus, and J. Markoš |
Vol. 60, 6 |
| Modelling of enzymatic reaction in an internal loop airlift reactor |
446 |
– |
453 |
| I. Sikula, M. Juraščík, and J. Markoš |
Vol. 60, 6 |
| Safety analysis and risk identification for a tubular reactor using the HAZOP methodology |
454 |
– |
459 |
| J. Labovský, L’. Jelemenský, and J. Markoš |
Vol. 60, 6 |
| HAZOP Analysis of CSTR with the Use of Mathematical Modelling |
464 |
– |
468 |
| Z. Švandová, J. Markoš, and Ľ. Jelemenský |
Vol. 59, 6b |
| Comparison of Single Coal Char Particle Combustion at Different Conditions |
413 |
– |
420 |
| K. Holíková, R. Žajdlík, J. Markoš, and Ľ. Jelemenský |
Vol. 59, 6a |
| A Kinetic Model for Gluconic Acid Production by Aspergillus niger |
23 |
– |
28 |
| H. Znad, M. Blažej, V. Báleš, and J. Markoš |
Vol. 58, 1 |
| Reliable Risk Estimation in the Risk Analysis of Chemical Industry. Case Study: Ammonia Storage Pressurized Spherical Tank |
48 |
– |
54 |
| Š. Jelemenský, J. Harišová, A. Molnár, and J. Markoš |
Vol. 58, 1 |
| Three-Dimensional Gas-Liquid Simulation of an Airlift Bubble Column Reactor |
387 |
– |
392 |
| G. M. Cartland Glover, M. Blažej, S. C. Generalis, and J. Markoš |
Vol. 57, 6 |
| Using of the Dynamic Pressure-Step Method for Mass Transfer Coefficient Measurement in the Internal-Loop Airlift Reactor |
445 |
– |
450 |
| M. Blažej, J. Annus, and J. Markoš |
Vol. 57, 6 |
| Accuracy of Mathematical Model with Regard to Safety Analysis of Chemical Reactors |
357 |
– |
361 |
| A. Molnár, J. Markoš, and Ľ. Jelemenský |
Vol. 56, 6 |
| Experimental Study of Single Coal Char Particle Combustion Mechanism |
359 |
– |
363 |
| J. Markoš, R. Žajdlík, B. Remiarová, and Ľ. Jelemenský |
Vol. 55, 6 |
| Modelling of Gasification of a Single Coal Char Particle |
364 |
– |
368 |
| R. Žajdlík, Ľ. Jelemenský, J. Markoš, and B. Remiarová |
Vol. 55, 6 |
| Application of a Magnetic Tracer Method for the Characterization of Hydrodynamics in Internal-Loop Airlift Bioreactors |
456 |
– |
466 |
| J. Klein, O. Dolgoš, Š. Godó, M. Blažej, and J. Markoš |
Vol. 54, 6b |
| Single Coal Char Particle Combustion in the Carbon Dioxide Atmosphere |
467 |
– |
472 |
| R. Žajdlík, J. Markoš, Ľ. Jelemenský, and B. Remiarová |
Vol. 54, 6b |
| Modelling of Nonlinear Behaviour during Combustion of Single Coal Char Particle |
473 |
– |
481 |
| Ľ. Jelemenský, J. Markoš, R. Žajdlík, and B. Remiarová |
Vol. 54, 6b |
| Selective chlorination of acetone in the gas phase |
349 |
– |
356 |
| J. Markoš, Ľ. Jelemenský, M. Šóoš, and V. Čamaj |
Vol. 53, 6 |
| Modeling of catalytic reactors with catalyst deactivation. II. Model of well-mixed regions in series |
363 |
– |
373 |
| J. Markoš, A. Brunovská, and J. Ilavský |
Vol. 41, 3 |
| Modeling of catalytic reactors with catalyst deactivation. 4. Parameter estimation of the rate equations of heterogeneous catalyst deactivation |
375 |
– |
393 |
| J. Markoš, A. Brunovská, and J. Ilavský |
Vol. 41, 3 |
Editorial Board
