1 |
Control of nitrogen oxide formation in power generation using modified reaction kinetics and mixing Bashtani J, Seddighi S, Bahrabadi-Jovein I Energy, 145, 567, 2018 |
2 |
Improvement of catalytic activity over Mn-modified CeZrO, catalysts for the selective catalytic reduction of NO with NH3 Sun WB, Li XY, Mu JC, Fan SY, Yin ZF, Wang XY, Qin MC, Tade M, Liu SM Journal of Colloid and Interface Science, 531, 91, 2018 |
3 |
REACTION MECHANISM FOR THE FORMATION OF NITROGEN OXIDES (NOx) DURING COKE OXIDATION IN FLUIDIZED CATALYTIC CRACKING UNITS Chaparala SV, Raj A, Chung SH Combustion Science and Technology, 187(11), 1683, 2015 |
4 |
Mechanistic model for ultraviolet degradation of H2S and NOx in waste gas Asili V, De Visscher A Chemical Engineering Journal, 244, 597, 2014 |
5 |
Direct numerical simulation of flow and surface reaction in de-NOx catalyst Tanno K, Kurose R, Michioka T, Makino H, Komori S Advanced Powder Technology, 24(5), 879, 2013 |
6 |
Probe sampling measurements of no in CH4+O-2+N-2 flames doped with NH3 Konnov AA, Dyakov IV, De Ruyck J Combustion Science and Technology, 178(6), 1143, 2006 |
7 |
Effects of air contamination on the combustion of hydrogen - Effect of NO and NO2 addition on hydrogen ignition and oxidation kinetics Dayma G, Dagaut P Combustion Science and Technology, 178(10-11), 1999, 2006 |
8 |
Preparation of bipolar zeolite exchangers by gas-phase modification using NOx Shaikh RG, Shukla A, Sinha S, Kumar J, Kumar A Chemical Engineering Science, 59(3), 661, 2004 |
9 |
The effects of reaction pressures on the production of methanol through the selective oxidation of methane in CH4-O-2-NOx (x=1 or 2) Takemoto T, Tabata K, Teng YH, Nakayama A, Suzuki E Applied Catalysis A: General, 205(1-2), 51, 2001 |
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Catalytic Reduction of Nitrogen-Oxides by Olefins in the Presence of Oxygen over Copper/Alumina - Influence of Copper Loading and Formation of by-Products Radtke F, Koeppel RA, Minardi EG, Baiker A Journal of Catalysis, 167(1), 127, 1997 |