燃烧科学与技术
燃燒科學與技術
연소과학여기술
JOURNAL OF COMBUSTION SCIENCE AND TECHNOLOGY
2011年
2期
147-154
,共8页
胡勇%蒋勇%邱榕%安江涛
鬍勇%蔣勇%邱榕%安江濤
호용%장용%구용%안강도
条件矩封闭%非稳态火焰面模型%湍流非预混火焰%局部熄火%不同分子扩散
條件矩封閉%非穩態火燄麵模型%湍流非預混火燄%跼部熄火%不同分子擴散
조건구봉폐%비은태화염면모형%단류비예혼화염%국부식화%불동분자확산
conditional moment closure%unsteady flamelet model%turbulent non-premixed flame%local extinction%differential diffusion
根据条件矩模型(CMC)和小火焰面模型在模型构建上的相似,针对具有不同大小雷诺数和湍流-化学相互作用特性的非预混湍流射流火焰,对这两种模型进行了数值研究和比较.湍流燃烧模型采用Lagrangian型非稳态小火焰模型(LFM)和径向加权积分的CMC模型,而在H2/N2火焰的数值研究中还考虑了稳态小火焰模型的数值模拟结果.数值结果表明,在两种火焰中这两种模型对主要组分的预测结果较为一致并与实验符合较好,而OH和NO的预测值差异明显;同时对于具有局部熄火特性的CH4/H2/N2火焰,NO的预测值被高估了2~3倍.
根據條件矩模型(CMC)和小火燄麵模型在模型構建上的相似,針對具有不同大小雷諾數和湍流-化學相互作用特性的非預混湍流射流火燄,對這兩種模型進行瞭數值研究和比較.湍流燃燒模型採用Lagrangian型非穩態小火燄模型(LFM)和徑嚮加權積分的CMC模型,而在H2/N2火燄的數值研究中還攷慮瞭穩態小火燄模型的數值模擬結果.數值結果錶明,在兩種火燄中這兩種模型對主要組分的預測結果較為一緻併與實驗符閤較好,而OH和NO的預測值差異明顯;同時對于具有跼部熄火特性的CH4/H2/N2火燄,NO的預測值被高估瞭2~3倍.
근거조건구모형(CMC)화소화염면모형재모형구건상적상사,침대구유불동대소뢰낙수화단류-화학상호작용특성적비예혼단류사류화염,대저량충모형진행료수치연구화비교.단류연소모형채용Lagrangian형비은태소화염모형(LFM)화경향가권적분적CMC모형,이재H2/N2화염적수치연구중환고필료은태소화염모형적수치모의결과.수치결과표명,재량충화염중저량충모형대주요조분적예측결과교위일치병여실험부합교호,이OH화NO적예측치차이명현;동시대우구유국부식화특성적CH4/H2/N2화염,NO적예측치피고고료2~3배.
Based on the similarity in the modeling approach, detailed numerical investigation of non-premixed flames is conducted to evaluate the unsteady flamelet model and the conditional moment closure (CMC). The involved test cases include H2/N2 and CH4/H2/N2 flames with different Reynolds number and turbulence-chemistry interactions. The Lagrangian extension of the flamelet model (LFM) and a cross-stream-integrated formulation of CMC are considered. Moreover, the predicted values of steady laminar flamelet model are also presented in the simulation of H2/N2 flame.For both flames, in terms of major species, the two models yield very similar results, which are in reasonable agreement with the experimental results, while agreement is less satisfactory for radical OH and NO. For the CH4/H2/N2flame local extinction, the levels of NO are over-predicted by CMC and LFM by a factor of 2-3.
