Publications

Journal papers

• Zheleznyak T., Kočí P., Epling W. Impact of mild hydrothermal aging on kinetics of NH₃, NO, SO₂ and CO oxidation reactions on Cu/SSZ-13 catalyst. Chemical Engineering Journal 489 (2024), 151194. DOI:10.1016/j.cej.2024.151194
  
  
• Plachá M., Isoz M., Kočí P., Jones M.P., Svoboda M., Eastwood D.S., York A.P.E. Particle accumulation model in 3D reconstructed wall of a catalytic filter validated with time-resolved X-ray tomography. Fuel 356 (2024), 129603. DOI:10.1016/j.fuel.2023.129603
  
  
• Hlavatý T., Kočí P., Isoz M., Deka D., Partridge W.P. Balanced Fast-SpaciMS capillary configurations provide practically noninvasive channel-average measurements in catalytic monoliths. Chemical Engineering Science 282 (2023), 119272. DOI:10.1016/j.ces.2023.119272
  
  
• Němec J., Plachá M., Kočí P. Effective modeling of coupled reaction and transport inside the catalytic filter wall. Chemical Engineering Journal 461 (2023), 141847. DOI:10.1016/j.cej.2023.141847
  
  
• Pečinka R., Blažek M., Knopp R., Kočí P., York A. Impact of diffusion limitations inside the wall of catalytic filters on conversion of gaseous pollutants at increased flow rates. Chemical Engineering Science 260 (2022), 117876. DOI:10.1016/j.ces.2022.117876
  
  
• Isoz M., Kotouč Šourek M., Studeník O., Kočí P. Hybrid fictitious domain-immersed boundary solver coupled with discrete element method for simulations of flows laden with arbitrarily-shaped particles. Computers and Fluids 244 (2022), 105538. DOI:10.1016/j.compfluid.2022.105538
  
  
• Novák V., Blažek M., Schlepütz C.M., Kočí P., Stampanoni M. Drying of water from porous structures investigated by time-resolved X-ray tomography. Drying Technology (2022), 1-19. DOI:10.1080/07373937.2022.2076239
  
  
• Leskovjan M., Němec J., Plachá M., Kočí P., Isoz M., Svoboda M., Novák V., Price E., Thompsett D. Multiscale modeling and analysis of pressure drop contributions in catalytic filters. Industrial & Engineering Chemistry Research 60 (2021), 6512-6524. DOI:10.1021/acs.iecr.0c05362
  
  
• Blažek M., Žalud M., Kočí P., York A., Schlepütz C.M., Stampanoni M., Novák V. Washcoating of catalytic particulate filters studied by time-resolved X-ray tomography. Chemical Engineering Journal 409 (2021), 128057. DOI:10.1016/j.cej.2020.128057
  
  
• Kvasničková A., Kočí P., Ji Y., Crocker M. Effective Model of NO_x Adsorption and Desorption on PtPd/CeO₂-ZrO₂ Passive NO_x Adsorber. Catalysis Letters 150 (2020), 3223-3233. DOI:10.1007/s10562-020-03186-z
  
  
• Plachá M., Kočí P., Isoz M., Svoboda M., Price E., Thompsett D., Kallis K., Tsolakis A. Pore-scale filtration model for coated catalytic filters in automotive exhaust gas aftertreatment. Chemical Engineering Science 226 (2020), 115854. DOI:10.1016/j.ces.2020.115854
  
  
• Březina J., Pečinka R., Boutikos P., Kočí P. Comparison of dual CO light-off effect on Pt/CeO₂/γ-Al₂O₃, Pd/CeO₂/γ-Al₂O₃, Pt/γ-Al₂O₃ and Pd/γ-Al₂O₃ in the presence of C₃H₆. Chemical Engineering Science 218 (2020), 115542. DOI:10.1016/j.ces.2020.115542
  
  
• Buzková Arvajová A., Boutikos P., Pečinka R., Kočí P. Global kinetic model of NO oxidation on Pd/γ-Al₂O₃ catalyst including PdO_x formation and reduction by CO and C₃H₆. Applied Catalysis B: Environmental 260 (2020), 118141. DOI:10.1016/j.apcatb.2019.118141
  
  
• Boutikos P., Žák A., Kočí P. CO and hydrocarbon light-off inhibition by pre-adsorbed NO_x on Pt/CeO₂/Al₂O₃ and Pd/CeO₂/Al₂O₃ diesel oxidation catalysts. Chemical Engineering Science 209 (2019), 115201. DOI:10.1016/j.ces.2019.115201
  
  
• Březina J., Boutikos P., Buzková Arvajová A., Pečinka R., Kočí P. Dynamics of Two-Step CO Oxidation Light-Off on Pt/γ-Al₂O₃ and Pd/γ-Al₂O₃ in the Presence of C₃H₆. Topics in Catalysis 62 (2019), 252-258. DOI:10.1007/s11244-018-1129-5
  
  
• Boutikos P., Březina J., Buzková Arvajová A., Kočí P. Comparison of O₂ and NO₂ impact on PtO_x and PdO_x formation in diesel oxidation catalysts and their reduction by CO and C₃H₆ pulses. Chemical Engineering Journal 377 (2019), 119654. DOI:10.1016/j.cej.2018.08.040
  
  
• Buzková Arvajová A., Boutikos P., Kočí P. Differentiation between O₂ and NO₂ impact on PtO_x formation in a diesel oxidation catalyst. Chemical Engineering Science 195 (2019), 179-184. DOI:10.1016/j.ces.2018.11.038
  
  
• Kočí P., Isoz M., Plachá M., Arvajová A., Václavík M., Svoboda M., Price E., Novák V., Thompsett D. 3D reconstruction and pore-scale modeling of coated catalytic filters for automotive exhaust gas aftertreatment. Catalysis Today 320 (2019), 165-174. DOI:10.1016/j.cattod.2017.12.025
  
  
• Leskovjan M., Kočí P., Maunula T. Simulation of diesel exhaust aftertreatment system DOC-pipe-SCR: The effects of Pt loading, PtO_x formation and pipe configuration on the deNO_x performance. Chemical Engineering Science 189 (2018), 179-190. DOI:10.1016/j.ces.2018.05.031
  
  
• Buzková Arvajová A., Březina J., Pečinka R., Kočí P. Modeling of two-step CO oxidation light-off on Pt/γ-Al₂O₃ in the presence of C₃H₆ and NO_x. Applied Catalysis B: Environmental 233 (2018), 167-174. DOI:10.1016/j.apcatb.2018.03.081
  
  
• Václavík M., Plachá M., Kočí P., Svoboda M., Hotchkiss T., Novák V., Thompsett D. Structure characterisation of catalytic particulate filters for automotive exhaust gas aftertreatment. Materials Characterization 134 (2017), 311-318. DOI:10.1016/j.matchar.2017.11.011
  
  
• Václavík M., Kočí P., Novák V., Thompsett D. NO_x conversion and selectivity in multi-layer and sequential DOC-LNT automotive exhaust catalysts: Influence of internal transport. Chemical Engineering Journal 329 (2017), 128-134. DOI:10.1016/j.cej.2017.05.129
  
  
• Distaso M., Zubiri B.A., Mohtasebi A., Inayat A., Dudák M., Kočí P., Butz B., Taylor R.K., Schwieger W., Spiecker E., Peukert W. Three-dimensional and quantitative reconstruction of non-accessible internal porosity in hematite nanoreactors using 360° electron tomography. Microporous and Mesoporous Materials 246 (2017), 207-214. DOI:10.1016/j.micromeso.2017.03.028
  
  
• Arvajová A., Kočí P. Impact of PtO_x formation in diesel oxidation catalyst on NO₂ yield during driving cycles. Chemical Engineering Science 158 (2017), 181-187. DOI:10.1016/j.ces.2016.10.011
  
  
• Choi J.-S., Kočí P. Automotive Emission Control Catalysts. Catalysts 6 (2016), 155-158. DOI:10.3390/catal6100155
  
  
• Václavík M., Novák V., Březina J., Kočí P., Gregori G., Thompsett D. Effect of diffusion limitation on the performance of multi-layer oxidation and lean NO_x trap catalysts. Catalysis Today 273 (2016), 112-120. DOI:10.1016/j.cattod.2016.03.013
  
  
• Dudák M., Novák V., Kočí P., Marek M., Blanco-García P., Thompsett D. Impact of zeolite and γ-alumina intra-particle diffusion on the performance of a dual layer catalyst. Chemical Engineering Journal 301 (2016), 178-187. DOI:10.1016/j.cej.2016.04.085
  
  
• Mráček D., Kočí P., Choi J.-S., Partridge W.P. New operation strategy for driving the selectivity of NO_x reduction to N₂, NH₃ or N₂O during lean/rich cycling of a lean NO_x trap catalyst. Applied Catalysis B: Environmental 182 (2016), 109-114. DOI:10.1016/j.apcatb.2015.09.002
  
  
• Arvajová A., Kočí P., Schmeißer V., Weibel M. The impact of CO and C₃H₆ pulses on PtO_x reduction and NO oxidation in a diesel oxidation catalyst. Applied Catalysis B: Environmental 181 (2016), 644-650. DOI:10.1016/j.apcatb.2015.08.004
  
  
• Novák V., Dudák M., Kočí P., Marek M. Understanding the gas transport in porous catalyst layers by using digital reconstruction techniques. Current Opinion in Chemical Engineering 9 (2015), 16-26.
  DOI:10.1016/j.coche.2015.07.002
  
  
• Mráček D., Kočí P., Marek M., Pihl J.A., Choi J.-S., Partridge W.P. Dynamics of N₂ and N₂O Peaks During and After the Regeneration of Lean NO_x Trap. Applied Catalysis B: Environmental 166-167 (2015), 509-517. DOI:10.1016/j.apcatb.2014.12.002
  
  
• Bártová Š., Mráček D., Kočí P., Marek M., Choi J.-S. Ammonia reactions with the stored oxygen in a commercial lean NO_x trap catalyst. Chemical Engineering Journal 278 (2015), 199-206. DOI:10.1016/j.cej.2014.09.115
  
  
• Václavík M., Dudák M., Novák V., Medlín R., Štěpánek F., Marek M., Kočí P. Yeast cells as macropore bio-templates enhancing transport properties and conversions in coated catalyst layers for exhaust gas oxidation. Chemical Engineering Science 116 (2014), 342-349. DOI:10.1016/j.ces.2014.04.037
  
  
• Novák V., Ortel E., Winter B., Butz B., Paul B., Kočí P., Marek M., Spiecker E., Kraehnert R. Prototyping of catalyst pore-systems by a combined synthetic, analytical and computational approach: Application to mesoporous TiO₂. Chemical Engineering Journal 248 (2014), 49-62. DOI:10.1016/j.cej.2014.02.004
  
  
• Dudák M., Novák V., Kočí P., Marek M., Blanco-García P., Jones G. Prediction of diffusivity and conversion of n-decane and CO in coated Pt/γ-Al₂O₃ catalyst depending on porous layer morphology. Applied Catalysis B: Environmental 150-151 (2014), 446-458. DOI:10.1016/j.apcatb.2013.12.018
  
  
• Bártová Š., Mráček D., Kočí P., Marek M., Pihl J.A., Choi J.-S., Toops T.J., Partridge W.P. New insights on N₂O formation pathways during lean/rich cycling of a commercial lean NO_x trap catalyst. Catalysis Today 231 (2014), 145-154. DOI:10.1016/j.cattod.2013.11.050
  
  
• Novák V., Kočí P., Gregor T., Choi J.-S., Štěpánek F., Marek M. Effect of cavities and cracks on diffusivity in coated catalyst layer. Catalysis Today 216 (2013), 142-149. DOI:10.1016/j.cattod.2013.07.002
  
  
• Kočí P., Bártová Š., Mráček D., Marek M., Choi J.-S., Kim M.-Y., Pihl J.A., Partridge W.P. Effective Model for Prediction of N₂O and NH₃ Formation During the Regeneration of NO_x Storage Catalyst. Topics in Catalysis 56 (2013), 118-124. DOI:10.1007/s11244-013-9939-y
  
  
• Novák V., Kočí P., Marek M., Štěpánek F., Blanco-García P., Jones G. Multi-scale modelling and measurements of diffusion through porous catalytic coatings: An application to exhaust gas oxidation. Catalysis Today 188 (2012), 62-69. DOI:10.1016/j.cattod.2012.03.049
  
  
• Štěpánek J., Kočí P., Marek M., Kubíček M. Catalyst simulations based on coupling of 3D CFD tool with effective 1D channel models. Catalysis Today 188 (2012), 87-93. DOI:10.1016/j.cattod.2012.01.038
  
  
• Štěpánek J., Kočí P., Weaver M., Frey R., Overfeld A., Jakobs H. Modeling of Injected Diesel Fuel Conversion and Heat Release in Oxidation Catalyst: 3D-CFD & 1D Channels Approach. SAE Technical Paper 2012-01-1293. DOI:10.4271/2012-01-1293
  
  
• Choi J.-S., Partridge W.P., Pihl J.A., Kim M.-Y., Kočí P., Daw C.S. Spatiotemporal distribution of NO_x storage and impact on NH₃ and N₂O selectivities during lean/rich cycling of a Ba-based lean NO_x trap catalyst. Catalysis Today 184 (2012), 20-26. DOI:10.1016/j.cattod.2011.11.007
  
  
• Novák V., Kočí P., Štěpánek F., Marek M. Integrated multiscale methodology for virtual prototyping of porous catalyst. Industrial and Engineering Chemistry Research 50 (2011), 12904-12914. DOI:10.1021/ie2003347
  
  
• Novák V., Kočí P., Štěpánek F., Kubíček M, Marek M. Simulated preparation of supported porous catalyst and evaluation of its reaction-transport properties. Computers and Chemical Engineering 35 (2011), 964-972. DOI:10.1016/j.compchemeng.2011.01.039
  
  
• Plát F., Bártová Š., Štěpánek J., Kočí P., Marek M. Dynamics of a Combined DOC-NSRC-SCR Exhaust Gas Aftertreatment System with Periodic Regenerations. Industrial and Engineering Chemistry Research 49 (2010), 10348-10357. DOI:10.1021/ie100590s
  
  
• Schejbal M., Štěpánek J., Kočí P., Marek M., Kubíček M. Sequence of monolithic converters DOC-CDPF-NSRC for lean exhaust gas detoxification: A simulation study. Chemical engineering and processing: Process intensification 49 (2010), 943-952. DOI:10.1016/j.cep.2010.05.005
  
  
• Schejbal M., Štěpánek J., Marek M., Kočí P., Kubíček M. Modelling of soot oxidation by NO₂ in various types of Diesel particulate filters. Fuel 89 (2010), 2365-2375. DOI:10.1016/j.fuel.2010.04.018
  
  
• Chatterjee D., Kočí P., Schmeißer V., Marek M., Weibel M., Krutzsch B. Modelling of a combined NO_x storage and NH₃-SCR catalytic system for Diesel exhaust gas aftertreatment. Catalysis Today 151 (2010), 395-409. DOI:10.1016/j.cattod.2010.01.014
  
  
• Novák V., Štěpánek F., Kočí P., Marek M. Evaluation of local pore sizes and transport properties in porous catalysts. Chemical Engineering Science 65 (2010), 2352-2360. DOI:10.1016/j.ces.2009.09.009
  
  
• Štěpánek J., Kočí P., Plát F., Marek M., Kubíček M. Investigation of combined DOC and NSRC diesel car exhaust catalysts. Computers and Chemical Engineering 34 (2010), 744-752. DOI:10.1016/j.compchemeng.2010.01.003
  
  
• Štěpánek J., Kočí P., Marek M., Maunula T., Kinnunen T. Effects of Biofuel Blends on Performance of Exhaust Gas Catalyst: Ethanol and Acetaldehyde Reactions. SAE Technical Paper 2010-01-0894, SAE International Journal of Fuels and Lubricants 3 (2010), 523-536. DOI:10.4271/2010-01-0894
  
  
• Chatterjee D., Kočí P., Schmeißer V., Marek M., Weibel M. Modelling of NO_x Storage + SCR Exhaust Gas Aftertreatment System with Internal Generation of Ammonia. SAE Technical Paper 2010-01-0887, SAE International Journal of Fuels and Lubricants 3 (2010), 500-522. DOI:10.4271/2010-01-0887
  
  
• Kočí P., Novák V., Štěpánek F., Marek M., Kubíček M. Multi-scale modelling of reaction and transport in porous catalysts. Chemical Engineering Science 65 (2010), 412-419. DOI:10.1016/j.ces.2009.06.068
  
  
• Schejbal M., Marek M., Kubíček M., Kočí P. Modelling of diesel filters for particulates removal. Chemical Engineering Journal 154 (2009), 219-230. DOI:10.1016/j.cej.2009.04.056
  
  
• Kočí P., Plát F., Štěpánek J., Bártová Š., Marek M., Kubíček M., Schmeißer V., Chatterjee D., Weibel M. Global kinetic model for the regeneration of NO_x storage catalyst with CO, H₂ and C₃H₆ in the presence of CO₂ and H₂O. Catalysis Today 147S (2009), S257-S264. DOI:10.1016/j.cattod.2009.07.036
  
  
• Kočí P., Štěpánek J., Plát F., Marek M., Kubíček M. Modelling of dynamic processes during the regeneration of NO_x storage catalyst. Chemical Engineering Transactions 17 (2009), 105-110. DOI:10.3303/CET0917018
  
  
• Kočí P., Plát F., Štěpánek J., Kubíček M., Marek M. Dynamics and selectivity of NO_x reduction in NO_x storage catalytic monolith. Catalysis Today 137 (2008), 253-260. DOI:10.1016/j.cattod.2007.11.023
  
  
• Kočí P., Štěpánek F., Kubíček M., Marek M. Modelling of micro/nano-scale concentration and temperature gradients in porous supported catalysts. Chemical Engineering Science 62 (2007), 5380-5385. DOI:10.1016/j.ces.2006.12.033
  
  
• Güthenke A., Chatterjee D., Weibel M., Waldbüßer N., Kočí P., Marek M., Kubíček M. Development and application of a model for a NO_x storage and reduction catalyst. Chemical Engineering Science 62 (2007), 5357-5363. DOI:10.1016/j.ces.2007.01.049
  
  
• Güthenke A., Chatterjee D., Weibel M., Waldbüßer N., Thinschmidt B., Kočí P., Marek M., Kubíček M. Simulation of NO_x storage and reduction catalyst: Model development and application. SAE Technical Paper 2007-01-1117 (2007). DOI:10.4271/2007-01-1117
  
  
• Kočí P., Štěpánek F., Kubíček M., Marek M. Pore-scale modeling of non-isothermal reaction phenomena in digitally reconstructed porous catalyst. Molecular Simulation 33 (2007), 369-377. DOI:10.1080/08927020601156426
  
  
• Kočí P., Schejbal M., Trdlička J., Gregor T., Kubíček M., Marek M. Transient behaviour of catalytic monolith with NO_x storage capacity. Catalysis Today 119 (2007), 64-72. DOI:10.1016/j.cattod.2006.08.014
  
  
• Marek M., Grof Z., Kočí P., Kohout M., Kosek J., Štěpánek F. Multiscale modelling of transport, reaction and phase change in heterogeneous media. Journal of Chemical Engineering of Japan 40 (2007), 879-889. DOI:10.1252/jcej.07WE044
  
  
• Starý T., Šolcová O., Schneider P., Marek M. Effective diffusivities and pore-transport characteristics of washcoated ceramic monolith for automotive catalytic converter. Chemical Engineering Science 61 (2006), 5934-5943. DOI:10.1016/j.ces.2006.05.014
  
  
• Marek M., Schejbal M., Kočí P., Nevoral V., Kubíček M., Hadač O., Schreiber I. Oscillations, Period-Doublings, and Chaos in CO Oxidation and Catalytic Mufflers. Chaos 16 (2006), 037107. DOI:10.1063/1.2354429
  
  
• Kočí P., Štěpánek F., Kubíček M., Marek M. Meso-scale modelling of CO oxidation in digitally reconstructed porous Pt/γ-Al₂O₃ catalyst. Chemical Engineering Science 61 (2006), 3240-3249. DOI:10.1016/j.ces.2005.12.008
  
  
• Kryl D., Kočí P., Kubíček M., Marek M., Maunula T., Härkönen M. Catalytic Converters for Automobile Diesel Engines with Adsorption of Hydrocarbons on Zeolites. Industrial and Engineering Chemistry Research 44 (2005), 9524-9534. DOI:10.1021/ie050249v
  
  
• Kočí P., Nevoral V., Záhrubský M., Kubíček M., Marek M. Nonlinear dynamics of automobile exhaust gas converters: The role of nonstationary kinetics. Chemical Engineering Science 59 (2004), 5597-5605. DOI:10.1016/j.ces.2004.07.115
  
  
• Kočí P., Kubíček M., Marek M. Periodic forcing of three-way catalyst with diffusion in the washcoat. Catalysis Today 98 (2004), 345-355. DOI:10.1016/j.cattod.2004.08.002
  
  
• Kočí P., Kubíček M., Marek M. Modelling of TWC monolith converters with microkinetics and diffusion in the washcoat. Industrial and Engineering Chemistry Research 43 (2004), 4503-4510. DOI:10.1021/ie034137k
  
  
• Kočí P., Kubíček M., Marek M. Multifunctional aspects of three-way catalyst: Effects of complex washcoat composition. Chemical Engineering Research and Design 82 (2004), 284-292. DOI:10.1205/026387604772992882
  
  
• Kočí P., Marek M., Kubíček M., Maunula T., Härkönen M. Modelling of catalytic monolith converters with low- and high-temperature NO_x storage compounds and differentiated washcoat. Chemical Engineering Journal 97 (2004), 131-139. DOI:10.1016/S1385-8947(03)00151-7
  
  
• Jirát J., Štěpánek F., Marek M., Kubíček M. Comparsion of design and operation strategies for temperature control during selective catalytic reduction of NO_x. Chemical Engineering Technology 24 (2001), 35-40. DOI:10.1002/1521-4125(200101)24:1
  
  
• Jahn R., Šnita D., Kubíček M., Marek M. Evolution of spatiotemporal temperature patterns in monolithic catalytic reactor. Catalysis Today 70 (2001), 393-409. DOI:10.1016/S0920-5861(01)00346-7
  
  
• Jirát J., Kubíček M., Marek M. Adsorber-reactor systems for emission treatment from mobile sources. Chemical Engineering Science 56 (2001), 1597-1604. DOI:10.1016/S0009-2509(00)00387-0
  
  
• Jirát J., Kubíček M., Marek M. A CAPE tool for evaluation of adsorber-reactor systems for treatment of exhausts from mobile sources. Computers and Chemical Engineering 25 (2001), 643-651. DOI:10.1016/S0098-1354(01)00645-7
  
  
• Štěpánek F., Kubíček M., Marek M., Adler P.M. Optimal design and operation of a separating microreactor. Chemical Engineering Science 54 (1999), 1493-1498. DOI:10.1016/S0009-2509(99)00053-6
  
  
• Jirát J., Štěpánek F., Kubíček M., Marek M. Nonstationary operation of a system of catalytic monolithic reactors for selective NO_x reduction. Chemical Engineering Science 54 (1999), 2609-2618. DOI:10.1016/S0009-2509(98)00399-6
  
  
• Jirát J., Kubíček M., Marek M. Mathematical modeling of catalytic monolithic reactors with storage of reaction components on the catalyst surface. Catalysis Today 53 (1999), 583-596. DOI:10.1016/S0920-5861(99)00146-7
  
  
• Kubíček M., Pinkas P., Jirát J., Šnita D., Marek M. Modelling of interconnected reactor systems described by nonlinear PDE's. Computers and Chemical Engineering 21 (1997), 757-762. DOI:10.1016/S0098-1354(97)87594-1
  
  
• Jahn R., Šnita D., Kubíček M., Marek M. 3-D modelling of monolith reactors. Catalysis Today 38 (1997), 39. DOI:10.1016/S0920-5861(97)00037-0
  
  
• Pinkas P., Šnita D., Kubíček M., Marek M. Catalytic Honeycomb Reactors with Electrical Heating. Chemical Engineering Science 49 (1995), 5347-5358. DOI:10.1016/0009-2509(94)00301-7
  
  
• Dvořák L., Pinkas P., Marek M. Dynamic behaviour of CO catalytic afterburner with electric heating. Catalysis Today 20 (1994), 449-466. DOI:10.1016/0920-5861(94)80138-X
  
  
• Kapička J., Marek M. Translation to chaos in the oscillating CO oxidation on Pt/γ-Al₂O₃. Surface Science 222 (1989), 885-889. DOI:10.1016/0167-2584(89)90922-5
  
  

Books

• Kočí P. Global Kinetic Modelling of the NSR Catalysts, in "NO_x Trap Catalysts and Technologies: Fundamentals and Industrial Applications", pp. 279-320, L. Lietti and L. Castoldi (eds.), ISBN: 978-1-78262-931-3, The Royal Society of Chemistry, London (2018). DOI:10.1039/9781788013239-00279
  Chapter   -   Complete Book
  
  
• Güthenke A., Chatterjee D., Weibel M., Krutzsch B., Kočí P., Marek M., Nova I., Tronconi E. Current status of modeling lean exhaust gas aftertreatment catalysts, in "Advances in Chemical Engineering vol. 33: Automotive Emission Control", pp. 103-211, G.B. Marin (ed.), ISBN: 978-0-12-373900-1, Elsevier, Amsterdam (2007). DOI:10.1016/S0065-2377(07)33003-2
  Chapter   -   Complete Book
  
  
• Jirát J., Štěpánek F., Kubíček M., Marek M. Operation of reactor-adsorber systems for minimization of exhaust gases emissions, in "Reaction Engineering for Pollution Prevention", pp. 221-235, M. Abraham and R.P. Hesketh (eds.). Elsevier, Amsterdam (2000).
  
  
• Marek M., Müller S.C., Yamaguchi E., Yoshikawa K. (eds.). Dynamism and Regulation in Nonlinear Chemical Systems. Elsevier, Amsterdam (1995).
  
  
• Marek M., Schreiber I. Chaotic Behaviour of Deterministic Dissipative Systems. Academia, Prague (1991), Cambrige University Press, Cambridge (1995).
  
  
• Holodniok M., Klíč A., Kubíček M., Marek M. Methods of Analysis of Nonlinear Dynamical Models. Academia, Prague, in Czech (1986), World Publishing House, Moscow, in Russian (1991).
  
  
• Marek M., Schreiber I. Stochastic Behaviour of Deterministic Systems. Academia, Prague, in Czech (1984).
  
  
• Kubíček M., Marek M. Computational Methods in Bifurcation Theory and Dissipative Structures. Springer Verlag, Heidelberg / New York (1983).
  
  

PhD Theses

• Plachá M. Modeling of transport and reaction in porous catalytic filters using 3D digital reconstruction. PhD Thesis (2023).
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• Březina J. Experimental study of reactions on oxidation and three-way catalysts for automotive exhaust gas aftertreatment. PhD Thesis (2022).
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• Václavík M. Engineering of multi-functional porous catalysts and filters. PhD Thesis (2021).
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• Leskovjan M. Mathematical modeling of combined exhaust gas aftertreatment systems. PhD Thesis (2021).
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• Dudák M. Optimization of a porous catalytic layer structure aided by 3D computer reconstruction. PhD Thesis (2019).
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• Mráček D. Analysis and Modelling of Spatiotemporal Concentration Profiles in NO_x Reduction Automotive Catalytic Converters. PhD Thesis (2016).
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• Bártová Š. Selectivity of NO_x Reduction In Diesel Exhaust Gas Catalysts Based on Platinum Group Metals. PhD Thesis (2014).
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• Novák V. Virtual prototyping of porous catalysts at micro- and nano-scale. PhD Thesis (2013).
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• Štěpánek J. Simulation of Automotive Catalysts and Combined Exhaust Gas Aftertreatment Systems. PhD Thesis (2013).
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• Plát F. Dynamic Behaviour of NO_x Storage Catalysts and Combined Exhaust Gas Aftertreatment Systems. PhD Thesis (2011).
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• Schejbal M. Dynamic Behaviour of Complex Catalytic Systems and Particulate Filters. PhD Thesis (2009).
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• Kočí P. Catalytic Monolith Reactors with Surface Deposition of Gas Components - Applications in Automobile Exhaust Gas Conversion. PhD Thesis (2005).
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