Study on flame structures and emission characteristics according to various swirl combinations and fuel compositions in a CH4/H2/CO syngas swirl-stabilized combustor

•Particle image velocimetry was used to compare the computational results.•Effect of CH4/H2/CO syngas compositions with swirl combinations was investigated.•Effect of flame structure on NOx and CO emissions characteristics was performed.•Optimal operating procedure was observed during fuel changeove...

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Bibliographic Details
Published in:Fuel (Guildford) 2019-10, Vol.253, p.887-903
Main Authors: Choi, Minsung, Park, Yeseul, Li, Xinzhuo, Sung, Yonmo, Park, Seik, Moon, Keunhyeok, Choi, Gyungmin
Format: Article
Language:English
Subjects:
Aerodynamics
Carbon monoxide
Combustion chambers
Composition
Computational fluid dynamics
Computer applications
Electric power generation
Emission analysis
Fluid dynamics
Fuel changeover
Fuels
Gasification
Hydrodynamics
IGCC
Integrated gasification combined cycle
Methane
Modified unmixedness
Natural gas
Nitrogen oxides
NOx emissions
Parameter modification
Particle image velocimetry
Power plants
Swirling
Swirling flame structure
Syngas combustion
Synthesis gas
Velocity measurement
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Summary:•Particle image velocimetry was used to compare the computational results.•Effect of CH4/H2/CO syngas compositions with swirl combinations was investigated.•Effect of flame structure on NOx and CO emissions characteristics was performed.•Optimal operating procedure was observed during fuel changeover section. In an integrated gasification combined cycle (IGCC) power plant, the initial operating procedure is driven by natural gas first, and then by H2/CO syngas. This study attempted to find the optimal operating procedure in the fuel changeover section, such as from natural gas to syngas. Therefore, the influences of various swirl combinations and syngas compositions on flame structures and NOx and CO emissions characteristics were investigated through experimental and numerical analyses in a partially premixed dual swirl combustor. To observe the various flame structures, such as lifted, tubular, and attached flames, the two-dimensional particle image velocimetry (PIV) technique was applied and compared with the results obtained by computational fluid dynamics (CFD). The combustion characteristics of co– and counter-swirling flames were observed, and the optimal swirl combination was subsequently confirmed by using the parameter of modified unmixedness. When the flame shape and fuel and air mixing efficiency are considered, Sco, 1.3/1.46 condition is the optimal swirl combination for stable conversion of the syngas fuel. In addition, the operating parts with a methane content of 25% and a hydrogen content of 75% are considered to be avoided in the operating part of fuel changeover. The operating part of fuel changeover can be divided into 10 paths for stable syngas operation. The optimal operating procedure to control the content of hydrogen and carbon monoxide after the syngas operation with the Path No. 2, such as H2 = 25% and CO = 75%.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2019.05.049