| 1 |
A note on large-size supercritical CFB technology development
Cheng LM, Ji JQ, Wei YJ, Wang QH, Fang MX, Luo ZY, Ni MJ, Cen KF
Powder Technology, 363, 398, 2020 |
| 2 |
Study on the effect of flame offset on water wall tube temperature in 600 degrees C and 700 degrees C ultra-supercritical boiler
Dong JC, Fan HJ, Wu XJ, Zhou T, Zhang J, Zhang ZX
Combustion Science and Technology, 191(3), 472, 2019 |
| 3 |
Coupled modeling of combustion and hydrodynamics for a coal-fired supercritical boiler
Chen T, Zhang YJ, Liao MR, Wang WZ
Fuel, 240, 49, 2019 |
| 4 |
Numerical research on the impact of changes in the configuration and the location of the over fire air nozzles on the combustion process in the ultra-supercritical BP 680 boiler
Hernik B, Zablocki W, Zelazko O, Latacz G
Process Safety and Environmental Protection, 125, 129, 2019 |
| 5 |
Numerical investigation of oxy-fuel combustion in 700 degrees C-ultra-supercritical boiler
Ge XL, Dong JC, Fan HJ, Zhang ZX, Shang XY, Hu XL, Zhang J
Fuel, 207, 602, 2017 |
| 6 |
Oxide scale growth and presumed exfoliation in a 700 degrees C or higher steam condition: A simulation study for future operations of ultra-supercritical power plants
Yeo WH, Fry AT, Purbolaksono J, Ramesh S, Inayat-Hussain JI, Liew HL, Hamdi M
Journal of Supercritical Fluids, 92, 215, 2014 |
| 7 |
Research on the elliptic aerodynamic field in a 1000 MW dual circle tangential firing single furnace ultra supercritical boiler
Sha L, Liu H, Xu LF, Cao QX, Li Q, Wu SH
Energy, 46(1), 364, 2012 |
