| 81 |
순환유동층 보일러 로내 탈황을 위한 석회석 평가
이시훈, 김동원, 이종민, 배용채
Korean Chemical Engineering Research, 57(6), 853, 2019 |
| 82 |
CALCULATION ANALYSIS OF SHALE OIL AND POWER COGENERATION
Lausmaa T, Ots A, Poobus A, Dedov A
Oil Shale, 36(1), 19, 2019 |
| 83 |
SOLID HEAT CARRIER OIL SHALE RETORTING TECHNOLOGY WITH INTEGRATED CFB TECHNOLOGY
Neshumayev D, Pihu T, Siirde A, Jarvik O, Konist A
Oil Shale, 36(2), 99, 2019 |
| 84 |
CO-COMBUSTION OF COAL AND OIL SHALE BLENDS IN CIRCULATING FLUIDIZED BED BOILERS
Konist A, Pikkor H, Neshumayev D, Loo L, Jarvik O, Siirde A, Pihu T
Oil Shale, 36(2), 114, 2019 |
| 85 |
Application of the theory of Markov chains to theoretical study of processes in a circulating fluidized bed
Mitrofanov A, Mizonov V, Camelo A, Tannous K
Particulate Science and Technology, 37(8), 1028, 2019 |
| 86 |
Fine particle alteration monitoring in flue gas at the convection pass inlet of a commercial circulating fluidized bed combustion boiler during solid recovered fuel combustion
Lee DH, Park JH, Hwang Y, Bae DH, Han KH, Kim JR, Shim TE, Shun D
Powder Technology, 343, 747, 2019 |
| 87 |
Flow characteristics in a horizontal liquid-solid circulating fluidized bed
Jiang F, Zhao PL, Qi GP, Li N, Li HJ, Jiang T, Li XL
Powder Technology, 342, 24, 2019 |
| 88 |
Numerical investigation of the cluster property and flux distribution in three-dimensional full-loop circulating fluidized bed with multiple parallel cyclones
Yang SL, Wang SA, Luo K, Fan JR, Chew JW
Powder Technology, 342, 253, 2019 |
| 89 |
Development of a numerical model for the hydrodynamics simulation of liquid-solid circulating fluidized beds
Luo H, Zhang C, Zhu J
Powder Technology, 348, 93, 2019 |
| 90 |
Experimental and predictive research on solids holdup distribution in a CFB riser
Li YZ, Zhai GW, Zhang HT, Li T, Sun QW, Ying WY
Powder Technology, 344, 830, 2019 |
