| 1 |
Features of petrochemical cracking catalysts produced by aluminosilicate technology
Doronin VP, Potapenko OV, Sorokina TP, Lipin PV, Dmitriev KI, Plekhova KS, Kondrashev DO, Kleimenov AV
Catalysis Today, 378, 75, 2021 |
| 2 |
Effect of Mixed Oxide Cracking Catalyst on Conversion of the Mixture of Vacuum Gas Oil and Vegetable Oil
Lipin PV, Potapenko OV, Sorokina TP, Doronin VP
Petroleum Chemistry, 61(1), 60, 2021 |
| 3 |
Effect of Phosphorus Modification of Zeolites Y and ZSM-5 on the Cracking of Hydrotreated Vacuum Gas Oil and a Vacuum Gas Oil-Sunflower Oil Mixture
Lipin PV, Potapenko OV, Gulyaeva TI, Sorokina TP, Doronin VP
Petroleum Chemistry, 59(8), 894, 2019 |
| 4 |
Key Features of Cotransformation of Vacuum Gas Oils and Vegetable Oils on Dual-Zeolite Cracking Catalysts
Lipin PV, Potapenko OV, Sorokina TP, Doronin VP
Petroleum Chemistry, 59(7), 657, 2019 |
| 5 |
Features of combined conversion of naphthenic hydrocarbons and fatty acids under catalytic cracking conditions
Doronin VP, Lipin PV, Potapenko OV, Arbuzov AB, Sorokina TP
Petroleum Chemistry, 56(8), 745, 2016 |
| 6 |
Catalytic cracking of vegetable oils and vacuum gas oil
Doronin VP, Potapenko OV, Lipin PV, Sorokina TP
Fuel, 106, 757, 2013 |
| 7 |
Catalytic cracking of vegetable oils for production of high-octane gasoline and petrochemical feedstock
Doronin VP, Potapenko OV, Lipin PV, Sorokina TP, Buluchevskaya LA
Petroleum Chemistry, 52(6), 392, 2012 |
| 8 |
Conversion of higher n-alkanes under deep catalytic cracking conditions
Lipin PV, Doronin VP, Gulyaeva TI
Petroleum Chemistry, 50(5), 362, 2010 |
