| 1 |
직접접촉식 응축기를 통한 가압순산소 연소 배가스 내 SOx, NOx 동시저감 연구
최솔비, 목진성, 양원, 류창국, 최석천
Clean Technology, 25(3), 245, 2019 |
| 2 |
Renewable energy sources and power-to-gas aided cogeneration for non-residential buildings
Bailera M, Lisbona P, Llera E, Pena B, Romeo LM
Energy, 181, 226, 2019 |
| 3 |
Techno-economic and exergy analysis of polygeneration plant for power and DME production with the integration of chemical looping CO2/H2O splitting
Farooqui A, Di Tomaso F, Bose A, Ferrero D, Llorca J, Santarelli M
Energy Conversion and Management, 186, 200, 2019 |
| 4 |
Oxyfuel combustion and reactants preheating to enhance turbulent flame stabilization of low calorific blast furnace gas
Ba A, Cessou A, Marcano N, Panier F, Tsiava R, Cassarino G, Ferrand L, Honore D
Fuel, 242, 211, 2019 |
| 5 |
A surface activation function method to determine the intrinsic reactivity of coal char oxyfuel conversion
Liu Y, Fu PF, Yue F, Bie K
Fuel, 239, 1061, 2019 |
| 6 |
Mercury adsorption and oxidation over magnetic biochar in oxyfuel combustion atmosphere: Impact of enriched CO2 and H2O
Zhou YM, Zhao YC, Zhang JY, Zheng CG
Fuel, 251, 458, 2019 |
| 7 |
Investigation of particle radiation and its effect on NO prediction in a pilot-scale facility for both air and oxy-coal combustion
Huynh H, Clements AG, Szuhanszki J, Gale WF, Ma L, Ingham DB, Pourkashanian M
Fuel, 250, 254, 2019 |
| 8 |
Understanding the effects of oxyfuel combustion and furnace scale on biomass ash deposition
Yang X, Szuhanszki J, Tian YF, Ingham D, Ma L, Pourkashanian M
Fuel, 247, 36, 2019 |
| 9 |
Numerical analysis of turbulence radiation interaction effect on radiative heat transfer in a swirling oxyfuel furnace
Yang X, He ZH, Niu QL, Dong SK, Tan HP
International Journal of Heat and Mass Transfer, 141, 1227, 2019 |
| 10 |
Prediction of the radiative heat transfer in small and large scale oxy-coal furnaces
Yang X, Clements A, Szuhanszki J, Huang XH, Moguel OF, Li J, Gibbins J, Liu ZH, Zheng CG, Ingham D, Ma L, Nimmo B, Pourkashanian M
Applied Energy, 211, 523, 2018 |
