| 1 |
Technological prospects of noncatalytic partial oxidation of light alkanes
Arutyunov V
Reviews in Chemical Engineering, 37(1), 99, 2021 |
| 2 |
Low-temperature steam conversion of flare gases for various applications
Uskov SI, Potemkin DI, Shigarov AB, Snytnikov PV, Kirillov VA, Sobyanin VA
Chemical Engineering Journal, 368, 533, 2019 |
| 3 |
Characteristics of Economic Appraisal of Associated Petroleum Gas Use for GTL Technology
Zubareva VD, Ozdoeva AK
Chemistry and Technology of Fuels and Oils, 55(4), 365, 2019 |
| 4 |
Thermodynamic Study of Associated Petroleum Gas Reforming to Methane
Ilyin VB, Yakovenko RE, Belashov DM, Zemlyakov ND, Savost'yanov AP
Petroleum Chemistry, 59(6), 641, 2019 |
| 5 |
Russian associated petroleum gas flaring limits: Interplay of formal and informal institutions
Korppoo A
Energy Policy, 116, 232, 2018 |
| 6 |
Adjustment of the fuel characteristics of wet and associated petroleum gases by partial oxidation of C-2+ hydrocarbons
Savchenko VI, Arutyunov VS, Fokin IG, Nikitin AV, Sedov IV
Petroleum Chemistry, 57(3), 236, 2017 |
| 7 |
Environmental flows and life cycle assessment of associated petroleum gas utilization via combined heat and power plants and heat boilers at oil fields
Rajovic V, Kiss F, Maravic N, Sera O
Energy Conversion and Management, 118, 96, 2016 |
| 8 |
Conversion of methane by CO2 + H2O + CH4 plasma
Rutberg PG, Kuznetsov VA, Popov VE, Popov SD, Surov AV, Subbotin DI, Bratsev AN
Applied Energy, 148, 159, 2015 |
| 9 |
Specific features of microwave-assisted catalytic oligomerization of refinery and natural gas components
Daminev RR, Chanyshev RR, Latypova FN, Vil'danov FS, Karimov OK
Petroleum Chemistry, 55(8), 683, 2015 |
| 10 |
Low temperature catalytic steam reforming of propane-methane mixture into methane-rich gas: Experiment and macrokinetic modeling
Zyryanova MM, Snytnikov PV, Shigarov AB, Belyaev VD, Kirillov VA, Sobyanin VA
Fuel, 135, 76, 2014 |
