| 1 |
Biochar contribution in biomass reburning technology and transformation mechanism of its nitrogen foundational groups at different oxygen contents
Cao SS, Duan F, Wang P, Chyang CS
Energy, 155, 272, 2018 |
| 2 |
Effects of reburning mechanically-activated micronized coal on reduction of NOx: Computational study of a real-scale tangentially-fired boiler
Chernetskiy M, Dekterev A, Chernetskaya N, Hanjalic K
Fuel, 214, 215, 2018 |
| 3 |
Reburning study of superfine pulverized coal in high CO2 concentration
Ma JF, Shen J, Liu JX, Ma Y, Jiang XM
Fuel, 220, 25, 2018 |
| 4 |
Experimental investigation on syngas reburning process in a gaseous fuel firing semi-idustrial combustion chamber
Slefarski R, Jojka J, Czyzewski P, Grzymislawski P
Fuel, 217, 490, 2018 |
| 5 |
Experiment on NOx reduction by advanced reburning in cement precalciner
Li S, Ge YF, Wei XL
Fuel, 224, 226, 2018 |
| 6 |
NO reduction by different tar agents and model compounds in a drop-tube reactor
Bunman Y, Do HS, Zeng X, Han ZN, Gao SQ, Xu GW
Fuel Processing Technology, 172, 187, 2018 |
| 7 |
Catalytic effects of calcium and potassium on a curved char surface in fuel reburning: A first-principles study on the adsorption of nitric oxide on single-wall carbon nanotubes with metal decoration
Liu L, Jin J, Hou FX, Li SJ, Lee CH
Energy, 125, 459, 2017 |
| 8 |
Influence of multiple air staging and reburning on NOx emissions during co-firing of low rank brown coal with woody biomass and natural gas
Hodzic N, Kazagic A, Smajevic I
Applied Energy, 168, 38, 2016 |
| 9 |
Effects of water vapor and Na/K additives on NO reduction through advanced biomass reburning
Lu P, Hao JT, Yu W, Zhu XM, Dai X
Fuel, 170, 60, 2016 |
| 10 |
Numerical study on the reburning characteristics of biomass syngas in a 2 MW pilot scale heavy oil furnace
Han SH, Chang D, Yang W
Fuel, 181, 277, 2016 |
