수소첨가 천연가스 희박예혼합 연소에 대한 수치해석 연구

Hydrogen enriched LNG flame is tested to understand hydrogen effect on the flame such as temperature, flame speed, emissions (NOx, CO), and extinction at lean premixed (ф=0.4~0.6) various pressure (p=1~25 bar) conditions using CHEMKIN-Pro with GRI 3.0 detailed chemistry. Hydrogen flame temperature i...

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Published in	한국연소학회지 Vol. 26; no. 1; pp. 51 - 58
Main Authors	신영준(Youngjun Shin), 조은성(Eun-Seong Cho)
Format	Journal Article
Language	Korean
Published	한국연소학회 01.03.2021
Subjects	기계공학 x&lt NO&lt Lean premixed combustion Hydrogen Extinction stretch rate Flame speed Gas turbine SUB&gt
Online Access	Get full text
ISSN	1226-0959 2466-2089
DOI	10.15231/jksc.2021.26.1.051

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Abstract	Hydrogen enriched LNG flame is tested to understand hydrogen effect on the flame such as temperature, flame speed, emissions (NOx, CO), and extinction at lean premixed (ф=0.4~0.6) various pressure (p=1~25 bar) conditions using CHEMKIN-Pro with GRI 3.0 detailed chemistry. Hydrogen flame temperature is much higher than that of LNG, which may affect high NOx emission production. The flame speed increases with the addition of H2, so a design speed change should be considered to prevent flashback at the nozzle. The addition of H2 reduces CO emissions and increases NOx emissions, but can be overcome with a lower equivalent ratio due to the increased flame stabilization due to the addition of H2. Extinction stretch rate gradually increases with hydrogen addition which shows that enriched hydrogen LNG premixed flame could be sustainable in high turbulent condition which means more stable than LNG itself flame. Even though in 100% H2 operating condition, gas turbine operating condition shows similar combustion air and exit flue gas flow rate with LNG which means the compressor and turbine may not need major modification. KCI Citation Count: 1
AbstractList	Hydrogen enriched LNG flame is tested to understand hydrogen effect on the flame such as temperature, flame speed, emissions (NOx, CO), and extinction at lean premixed (ф=0.4~0.6) various pressure (p=1~25 bar) conditions using CHEMKIN-Pro with GRI 3.0 detailed chemistry. Hydrogen flame temperature is much higher than that of LNG, which may affect high NOx emission production. The flame speed increases with the addition of H2, so a design speed change should be considered to prevent flashback at the nozzle. The addition of H2 reduces CO emissions and increases NOx emissions, but can be overcome with a lower equivalent ratio due to the increased flame stabilization due to the addition of H2. Extinction stretch rate gradually increases with hydrogen addition which shows that enriched hydrogen LNG premixed flame could be sustainable in high turbulent condition which means more stable than LNG itself flame. Even though in 100% H2 operating condition, gas turbine operating condition shows similar combustion air and exit flue gas flow rate with LNG which means the compressor and turbine may not need major modification. KCI Citation Count: 1
Author	신영준(Youngjun Shin) 조은성(Eun-Seong Cho)
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Title	수소첨가 천연가스 희박예혼합 연소에 대한 수치해석 연구
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