| 1 |
Estimation of heavy and light rare earth elements of coal by intelligent methods
Chelgani SC, Hadavandi E, Hower JC
Energy Sources Part A-recovery Utilization and Environmental Effects, 43(1), 70, 2021 |
| 2 |
The characteristics of particulate matter and optical properties of Brown carbon in air lean condition related to residential coal combustion
Song SY, Wang YS, Wang YL, Wang T, Tan HZ
Powder Technology, 379, 505, 2021 |
| 3 |
Numerical analysis on the potential danger zone of compound hazard in gob under mining condition
Li ZJ, Xu Y, Liu HS, Zhai XW, Zhao SQ, Yu ZJ
Process Safety and Environmental Protection, 147, 1125, 2021 |
| 4 |
Recent advances in high-fidelity simulations of pulverized coal combustion
Cai RP, Luo K, Watanabe H, Kurose R, Fan JR
Advanced Powder Technology, 31(7), 3062, 2020 |
| 5 |
Analysis of flame structure using detailed chemistry and applicability of flamelet/progress variable model in the laminar counter-flow diffusion flames of pulverized coals
Akaotsu S, Matsushita Y, Aoki H, Malalasekera W
Advanced Powder Technology, 31(3), 1302, 2020 |
| 6 |
Application of flamelet/progress-variable approach to the large eddy simulation of a turbulent jet flame of pulverized coals
Akaotsu S, Matsushita Y, Aoki H, Malalasekera W
Advanced Powder Technology, 31(10), 4253, 2020 |
| 7 |
80 kW 초 저 NOx 단일 버너 연소로에서 NOx 감소를 위한 운전특성 연구
채태영
Clean Technology, 26(3), 211, 2020 |
| 8 |
Flamelet tabulation methods for SOx formation in pulverized solid fuel combustion
Wen X, Debiagi P, Hasse C
Combustion and Flame, 218, 150, 2020 |
| 9 |
Drag force for a burning particle
Zhang HC, Luo K, Haugen NEL, Mao CL, Fan JR
Combustion and Flame, 217, 188, 2020 |
| 10 |
A comprehensive study of flamelet tabulation methods for pulverized coal combustion in a turbulent mixing layer - Part I: A priori and budget analyses
Wen X, Rieth M, Scholtissek A, Stein OT, Wang HO, Luo K, Kempf AM, Kronenburg A, Fan J, Hasse C
Combustion and Flame, 216, 439, 2020 |
