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Numerical simulation of the mixing and flow characteristics in lobed mixers
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This paper focused on the mixer optimization by numerical simulation. The
mixing and flow characteristics inside two different lobed mixers
with/without centrum were obtained by three-dimensional CFD simulation. The
core flow was the hot rich-methane/O2?l?burnt gas, while the cold air flew
by the by-pass. The air/burnt gas flow ratio was improved from 7 to 9 in
order to confirm the effect of air/burnt gas ratio on the mixing and flow
characteristics. The simulation results indicated that no matter which mixer
was used, there were a pair of symmetrical recirculation regions in the
mixers, and the total temperature and species distribution turned to be more
uniform at the increased mixing length. The mixing performance in the lobed
mixer with centrum was slightly better than that of the lobed mixer without
centrum, and the length of recirculation region in the lobed mixer with
centrum was slightly shorter than that of the lobed mixer without centrum.
The air/burnt gas ratio had considerable effect on the mixing and flow
characteristics. The mixing performance with air/burnt gas ratio of 9 was
much better than that of air/burnt gas ratio 7. Similar mixing performance
would attain in the case of air/burnt gas ratio 9 with only half of the
mixing length in the case ofair/burnt gas ratio 7. The recirculation region
in the case of air/burnt gas ratio 9 occurred ahead of that of air/burnt gas
ratio 7, and the former was longer than the latter.
National Library of Serbia
Title: Numerical simulation of the mixing and flow characteristics in lobed mixers
Description:
This paper focused on the mixer optimization by numerical simulation.
The
mixing and flow characteristics inside two different lobed mixers
with/without centrum were obtained by three-dimensional CFD simulation.
The
core flow was the hot rich-methane/O2?l?burnt gas, while the cold air flew
by the by-pass.
The air/burnt gas flow ratio was improved from 7 to 9 in
order to confirm the effect of air/burnt gas ratio on the mixing and flow
characteristics.
The simulation results indicated that no matter which mixer
was used, there were a pair of symmetrical recirculation regions in the
mixers, and the total temperature and species distribution turned to be more
uniform at the increased mixing length.
The mixing performance in the lobed
mixer with centrum was slightly better than that of the lobed mixer without
centrum, and the length of recirculation region in the lobed mixer with
centrum was slightly shorter than that of the lobed mixer without centrum.
The air/burnt gas ratio had considerable effect on the mixing and flow
characteristics.
The mixing performance with air/burnt gas ratio of 9 was
much better than that of air/burnt gas ratio 7.
Similar mixing performance
would attain in the case of air/burnt gas ratio 9 with only half of the
mixing length in the case ofair/burnt gas ratio 7.
The recirculation region
in the case of air/burnt gas ratio 9 occurred ahead of that of air/burnt gas
ratio 7, and the former was longer than the latter.
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