| 1 |
Scavenging of refractory elements (Ca, Mg, Fe) by kaolin during low rank coal combustion
Zeng XP, Yu DX, Liu FQ, Fan B, Wen C, Yu X, Xu MH
Fuel, 223, 198, 2018 |
| 2 |
Effect of kaolin on ash partitioning during combustion of a low-rank coal in O-2/CO2 atmosphere
Chen J, Jiao FC, Dong ZB, Niyomura O, Namioka T, Yamada N, Ninomiya Y
Fuel, 222, 538, 2018 |
| 3 |
The contribution of differently-sized ash particles to the fouling trends of a pilot-scale coal-fired combustor with an ash deposition CFD model
Perez MG, Vakkilainen E, Hyppanen T
Fuel, 189, 120, 2017 |
| 4 |
Ash formation and deposition during oxy-coal combustion in a 100 kW laboratory combustor with various flue gas recycle options
Zhan ZH, Fry A, Yu DX, Xu MH, Wendt JOL
Fuel Processing Technology, 141, 249, 2016 |
| 5 |
The melting potential of various ash components generated from coal combustion: Indicated by the circularity of individual particles using CCSEM technology
Wen C, Xu MH, Zhou K, Yu DX, Zhan ZH, Mo X
Fuel Processing Technology, 133, 128, 2015 |
| 6 |
Growth and gravity shedding of ash deposition layer in pulverized coal combustors
Sato N, Priyanto DE, Ueno S, Matsuzawa Y, Ueki Y, Yoshiie R, Naruse I
Fuel Processing Technology, 134, 1, 2015 |
| 7 |
Characterization of biomass and high carbon content coal ash for productive reuse applications
Yeboah NNN, Shearer CR, Burns SE, Kurtis KE
Fuel, 116, 438, 2014 |
| 8 |
Influence of hydrogen enriched gas injection upon polluting emissions from pulverized coal combustion
Pisa I, Lazaroiu G, Prisecaru T
International Journal of Hydrogen Energy, 39(31), 17702, 2014 |
| 9 |
Simulation studies on direct ash recycling and reburning technology in a tangentially fired 500 MW pulverized coal boiler
Hwang MY, Kim SM, Kim GB, Lee BH, Song JH, Park MS, Jeon CH
Fuel, 114, 78, 2013 |
| 10 |
Effect of SCR operation variables on mercury speciation
Rallo M, Heidel B, Brechtel K, Maroto-Valer MM
Chemical Engineering Journal, 198, 87, 2012 |
