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41
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Lopatin S.
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42
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Zazhigalov S.
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V.191. P.364-374. DOI: 10.1016/j.cherd.2023.01.045
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43
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Yazovtseva O.S.
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Computer Simulation of Coke Sediments Burning from the Whole Cylindrical Catalyst Grain
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44
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Ruban N.V.
, Rogozhnikov V.N.
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, Svintsitskiy D.A.
, Zazhigalov S.V.
, Zagoruiko A.N.
, Snytnikov P.V.
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A Comparative Investigation of Equimolar Ni-, Ru-, Rh- and Pt-Based Composite Structured Catalysts for Energy-Efficient Methane Reforming
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45
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Голяшова К.Е.
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Катализаторы на основе стекловолокнистых носителей для очистки отходящих газов промышленных предприятий от оксидов азота
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46
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Golyashova K.
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Glass-Fiber Catalysts for Selective Catalytic Reduction of Nitrogen Oxides by CO and Hydrocarbons
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47
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Yazovtseva O.S.
, Gubaydullin I.M.
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, Usmanova A.A.
, Zagoruiko A.N.
MPI-Based Computational Algorithm for Modeling a Cylindrical Catalyst Grain During Oxidative Regeneration
В сборнике
Parallel ComputationalTechnologies: 17th International Conference, PCT 2023, Saint Petersburg, Russia, March 28–30, 2023.
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48
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Zazhigalov S.V.
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Mathematical Modeling of the Adsorption-Catalytic Process with Internal Heater in a Multisectional Arrangement
Industrial and Engineering Chemistry Research. 2023.
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49
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Kharitontsev V.B.
, Tissen E.A.
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, Tret’yakov N.Y.
, Zagoruiko A.N.
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Assessment of the Efficiency of Catalysts for the Catalytic Pyrolysis of Polyethylene
Catalysis in Industry. 2023.
V.15. N4. P.397–403. DOI: 10.1134/S2070050423040086
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50
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Lopatin S.
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51
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Zazhigalov S.V.
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Mathematical Modeling of Diesel Autothermal Reformer Geometry Modifications
Chemical Engineering Journal. 2022.
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52
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Zagoruiko A.
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V.181. 109169
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53
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Загоруйко А.Н.
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Экспериментальные исследования и кинетика окисления водорода кислородом в среде углекислого газа при повышенном давлении на Pt/Pd стекловолокнистых катализаторах
Катализ в промышленности. 2022.
Т.22. №4. С.22-27. DOI: 10.18412/1816-0387-2022-4-22-27
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54
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Ruban N.
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Composite Structured M/Ce0.75Zr0.25O2/Al2O3/FeCrAl (M = Pt, Rh, and Ru) Catalysts for Propane and n-Butane Reforming to Syngas
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55
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Губайдуллин И.М.
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Численное моделирование окислительной регенерации сферического зерна катализатора
Математическое моделирование. 2022.
Т.34. №11. С.48-66. DOI: 10.20948/mm-2022-11-04
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56
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Zagoruiko A.N.
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Unsteady-State Operation of Reactors with Fixed Catalyst Beds
Reviews in Chemical Engineering. 2021.
V.37. N1. P.193-225. DOI: 10.1515/revce-2019-0017
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57
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Glazov N.
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Catalysis Today. 2021.
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58
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Zagoruiko A.
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Decomposition of Hydrogen Sulfide into Elements in the Cyclic Chemisorption-Catalytic Regime
Catalysis Today. 2021.
V.378. P.176-188. DOI: 10.1016/j.cattod.2020.12.004
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59
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Zazhigalov S.V.
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, Zagoruiko A.N.
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Modeling of Hydrogen Production by Diesel Reforming over Rh/Ce0.75Zr0.25O2‐δ‐ƞ‐Al2O3/FeCrAl Wire Mesh Honeycomb Catalytic Module
Catalysis Today. 2021.
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60
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Zagoruiko A.N.
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Thermodynamically Consistent Kinetic Model for the Naphtha Reforming Process
Industrial and Engineering Chemistry Research. 2021.
V.60. N18. P.6627-6638. DOI: 10.1021/acs.iecr.0c05653
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