| 1 |
Large Eddy Simulation of a particle-laden flow around a cylinder: Importance of thermal boundary layer effects for slagging and fouling
Kleinhans U, Wieland C, Babat S, Spliethoff H
Fuel, 241, 585, 2019 |
| 2 |
Comparison of high-rank coals with respect to slagging/deposition tendency at the transfer-chute of iron-ore pelletizing grate-kiln plants: A pilot-scale experimental study accompanied by thermochemical equilibrium modeling and viscosity estimations
Sefidari H, Wiinikka H, Lindhlom B, Nordin LO, Wu G, Yazhenskikh E, Muller M, Ma C, Ohman M
Fuel Processing Technology, 193, 244, 2019 |
| 3 |
The effect of disintegrated iron-ore pellet dust on deposit formation in a pilot-scale pulverized coal combustion furnace. Part I: Characterization of process gas particles and deposits
Sefidari H, Lindblom B, Wiinikka H, Nordin LO, Mouzon J, Bhuiyan IU, Ohman M
Fuel Processing Technology, 177, 283, 2018 |
| 4 |
The effect of disintegrated iron-ore pellet dust on deposit formation in a pilot-scale pulverized coal combustion furnace. Part II: Thermochemical equilibrium calculations and viscosity estimations
Sefidari H, Lindblom B, Wiinikka H, Nordin LO, Lennartsson A, Mouzo J, Bhuiyan IU, Ohman M
Fuel Processing Technology, 180, 189, 2018 |
| 5 |
ENAsh deposition and slagging behavior of Chinese Xinjiang high-alkali coal in 3 MWth pilot-scale combustion test
Wu XJ, Zhang X, Yan K, Chen N, Zhang JW, Xu XY, Dai BQ, Zhang J, Zhang L
Fuel, 181, 1191, 2016 |
| 6 |
Modelling of deposit formation and sintering for the co-combustion of coal with biomass
Garba MU, Ingham DB, Ma L, Degereji MU, Pourkashanian M, Williams A
Fuel, 113, 863, 2013 |
| 7 |
Evaluation, comparison and validation of deposition criteria for numerical simulation of slagging
Wieland C, Kreutzkam B, Balan G, Spliethoff H
Applied Energy, 93, 184, 2012 |
| 8 |
Effects of fine ash particles and alkali metals on ash deposition characteristics at the initial stage of ash deposition determined in 1.5 MWth pilot plant tests
Shimogori M, Mine T, Ohyatsu N, Takarayama N, Matsumura Y
Fuel, 97, 233, 2012 |
| 9 |
Prediction of ash slagging propensity in a pulverized coal combustion furnace
Degereji MU, Ingham DB, Ma L, Pourkashanian M, Williams A
Fuel, 101, 171, 2012 |
| 10 |
Modeling of a coal-fired slagging combustor: Development of a slag submodel
Wang XH, Zhao DQ, He LB, Jiang LQ, He Q, Chen Y
Combustion and Flame, 149(3), 249, 2007 |
