| 155 - 158 |
The notion of collection and treatment of spent lube oils
Kartoshkin AP |
| 159 - 165 |
Enhancement of deasphalting. Introduction of jet equipment
Yakovlev SP, Radchenko ED, Blokhinov VF, Lavrinenko AM, Esipko EA, Boldinov BA |
| 166 - 169 |
Increasing raffinate dewaxing efficiency
Litszyun' V, Ol'kov PL, Aznabaev ST, Nigmatullin IR |
| 170 - 172 |
Catalyst system for hydrotreating of base oils
Levina LA, Zelentsov YN, Elshin AI, Bocharov AP, Ponyaev LA, Gusakova ZY |
| 173 - 179 |
Revamping of the 1A/1M cat cracker. Increasing output by 40%
Solyar BZ, Glazov LS, Liberzon IM, Klimtseva EA |
| 180 - 183 |
The size of oxidative equipment for asphalt production
Grudnikov IB, Ippolitov EV, Grudnikova YI |
| 184 - 191 |
Stability of aqueous microemulsions in motor fuels
Likhterova NM, Kovalenko VP, Lebedev VV |
| 192 - 196 |
Optimization of the composition of binary alternative diesel fuel
Semenov VG |
| 197 - 200 |
Theoretical principles of lube oil qualimetry
Lashkhi VL, Leimeter T, Nemsadze GG, Smirnov KY, Shor GI, Evseev AA |
| 201 - 206 |
Determination of catalyst activity in hydrotreating of naphtha cuts
Smirnov VK, Irisova KN, Kraev YL, Talisman EL, Zharkov BB |
| 207 - 212 |
Production of active aluminum oxide by the thermodispersion method
Aliev RR |
| 213 - 215 |
Production of asphalt from activated crude oil residues
Volodin YA, Glagoleva OF, Klokova TP |
| 216 - 220 |
Requirements for vacuum resids for production of oxidized paving asphalts
Vainbender VR, Liventsev VT, Zhelezko EP, Zhelezko TV |
| 221 - 231 |
Effect of aluminum ion on coagulation of disperse systems in plant wastewaters. Physicochemical principles of prediction
Sorochenko VF |
