| 1 |
Enhancement of the electro-Fenton degradation of organic contaminant by accelerating Fe3+/Fe2+ cycle using hydroxylamine
Li D, Zheng T, Yu J, He H, Shi W, Ma J
Journal of Industrial and Engineering Chemistry, 105, 405, 2022 |
| 2 |
Comparative thermodynamic analysis of CO2 based dimethyl carbonate synthesis routes
Pandey S, Srivastava VC, Kumar V
Canadian Journal of Chemical Engineering, 99(2), 467, 2021 |
| 3 |
Effect of Zr Incorporation on Mordenite Catalyzed Dimethyl Ether Carbonylation
Zhao P, Qian WX, Ma HF, Sheng HB, Zhang HT, Ying WY
Catalysis Letters, 151(4), 940, 2021 |
| 4 |
Catalytic oxidation of sulfur compounds over Ce-SBA-15 and Ce-Zr-SBA-15
Rivoira LP, Valles VA, Martinez ML, Sa-ngasaeng Y, Jongpatiwut S, Beltramone AR
Catalysis Today, 360, 116, 2021 |
| 5 |
Crucial factors to maximize DME productivity on hydrophobic bifunctional Cu-ZnO-Al2O3/ferrierite by direct CO2 hydrogenation
Ham H, Xuan NT, Jung HS, Kim J, Roh HS, Bae JW
Catalysis Today, 369, 112, 2021 |
| 6 |
INVESTIGATION OF PHYSICOCHEMICAL PROPERTIES OF INITIAL COMPONENTS FOR POLYELECTROLYTE COMPLEX-REAGENT FOR OIL AND GAS PRODUCTION
Begalieva RS, Kulyashova IN, Dzhakupova ZE, Badikova AD, Mustafin AG
Chemistry and Technology of Fuels and Oils, 56(6), 889, 2021 |
| 7 |
Plug-flow reactor and shock-tube study of the oxidation of very fuel-rich natural gas/DME/O-2 mixtures
Kaczmarek D, Herzler J, Porras S, Shaqiri S, Fikri M, Schulz C, Atakan B, Maas U, Kasper T
Combustion and Flame, 225, 86, 2021 |
| 8 |
Exploring chemical kinetics of plasma assisted oxidation of dimethyl ether (DME)
Zhang RZ, Liao HD, Yang JZ, Yang B
Combustion and Flame, 225, 388, 2021 |
| 9 |
Inhibiting and promoting effects of NO on dimethyl ether and dimethoxymethane oxidation in a plug-flow reactor
Zhang H, Schmitt S, Ruwe L, Kohse-Hoinghaus K
Combustion and Flame, 224, 94, 2021 |
| 10 |
Investigation of PAH and soot formation in a dimethyl ether (DME) laminar coflow diffusion flame
Li TJ, Mitra T, Chu C, Yuan Y, Thomson MJ
Combustion and Flame, 223, 437, 2021 |
