| 1 |
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 |
| 2 |
A temperature-history based model for the sticking probability of impacting pulverized coal ash particles
Brink A, Lindberg D, Hupa M, de Tejada ME, Paneru M, Maier J, Scheffknecht G, Pranzitelli A, Pourkashanian M
Fuel Processing Technology, 141, 210, 2016 |
| 3 |
Ash deposition characteristics of Moolarben coal and its blends during coal combustion
Lee BH, Kim SI, Kim SM, Oh DH, Gupta S, Jeon CH
Korean Journal of Chemical Engineering, 33(1), 147, 2016 |
| 4 |
Assessment of ash deposition tendency in a rotary kiln using Thermo-mechanical analysis and Experimental Combustion Furnace
Bandyopadhyay R, Gupta S, Lindblom B, Jonsson S, French D, Sahajwalla V
Fuel, 135, 301, 2014 |
| 5 |
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 |
| 6 |
Ash deposition behavior of cynara-coal blends in a PF pilot furnace
Bartolome C, Gil A, Ramos I
Fuel Processing Technology, 91(11), 1576, 2010 |
| 7 |
Study of coal ash deposition in an entrained flow reactor: Assessment of traditional and alternative slagging indices
Barroso J, Ballester J, Pina A
Fuel Processing Technology, 88(9), 865, 2007 |
| 8 |
Study of coal ash deposition in an entrained flow reactor: Influence of coal type, blend composition and operating conditions
Barroso J, Ballester J, Ferrer LM, Jimenez S
Fuel Processing Technology, 87(8), 737, 2006 |
| 9 |
Fundamental ash deposition characteristics in pulverized coal reaction under high temperature conditions
Naruse I, Kamihashira D, Khairil, Miyauchi Y, Kato Y, Yamashita T, Tominaga H
Fuel, 84(4), 405, 2005 |
