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一种多代路径通量分析化学机理简化方法 被引量:3

Chemical Reaction Mechanism Reduction Method Using Paths Flux Analysis of Multi Generations
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摘要 基于路径通量分析,在考虑组分间直接和间接多代相关反应的基础上,建立了一种新型化学机理简化方法。以预选组分为基础,通过计算预选组分直接参与,以及第二代、第三代和第四代间接参与的所有生成反应与消耗反应中其它组分相对于预选组分的路径通量之和,以此决定相关组分及其所参与反应的取舍。用该多代路径通量分析简化法对甲烷及正庚烷反应机理进行了简化,计算结果与详细化学机理、直接关系图简化法简化结果、二代路径通量分析简化法简化结果进行了对比,结果证明了该多代路径通量分析简化法具有更高的简化精度。多代路径通量分析简化法为反应流模拟中大型化学机理的精确简化提供了一种新的解决思路。 Based on paths flux analysis,considering the direct and indirect relationship of different species in reactions,a new chemical mechanism reduction method has been developed.According to the sum of production and consumption fluxes of other species to the preselected in one generation,two generations and multi generations reactions,all the species and related reactions are decided to be kept or trimmed.The detailed mechanisms of methane and n-heptane are reduced by using paths flux analysis of multi generations method and the reduced mechanisms are compared with the detailed chemical mechanisms,the reduced mechanisms using directed relation graphs method and paths flux analysis of two generations.The comparison results prove that the reduction method based on paths flux analysis of multi generations is more accurate.It provides a new method for reducing large chemical mechanisms in reaction flow simulation.
作者 苟小龙 王卫 桂莹 施万玲
机构地区 重庆大学动力工程学院
出处 《推进技术》 EI CAS CSCD 北大核心 2012年第3期412-417,共6页 Journal of Propulsion Technology
基金 国家自然科学基金(50976003)
关键词 路径通量分析法 多代 机理简化 Path flux analysis Multi generations Mechanism reduction
分类号 TK124 [动力工程及工程热物理—工程热物理]
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参考文献17

  • 1Colket M,Edwards T,Williams S. Development of an Experimental Database and Kinetic Models for Surro- gate Jet Fuels[ A1AA 2007-770][R].
  • 2Lu T F,Law C K. Towards Accommodating Realistic Fu- el Chemistry in Large-Scale Computations [ Jl[J].Progress in Energy and Combustion Science,2009,(02):192-215.
  • 3Tomlin A S,Turanyi T,Pilling M J. Mathematical Tools for the Construction,Investigation and Reduction of Com- bustion Mechanisms[M].UK:Comprehensive Chemical Kinetics,Elsevier,1997.
  • 4Lu T F,Law C K. Development of Non-Stiff Reduced Mechanisms for Direct Numerical Simulations [ A1AA 2008-1010][R].
  • 5乔瑜,徐明厚,姚洪.基于敏感性分析的甲烷反应机理优化简化[J].华中科技大学学报(自然科学版),2007,35(5):85-87. 被引量:14
  • 6Tamds Turdnyi. Applications of Sensitivity Analysis to Combustion Chemistry[J].Reliability Engineering & System Safety,1997,(01):41-48.
  • 7Kevin J Hughes,Mike Fairweather. The Application of the QSSA Via Reaction Lumping for the Reduction of Complex Hydrocarbon Oxidation Mechanisms C J J[J].Pro- ceedings of the Combustion Institute,2009,(01):543-551_.
  • 8钱炜祺,杨顺华,肖保国,乐嘉陵.用准稳态方法建立碳氢燃料点火燃烧的简化化学反应动力学模型[J].空气动力学学报,2007,25(1):12-18. 被引量:4
  • 9Lu T F,Law C K. A Directed Relation Graph Method for Mechanism Reduction[J].Proceedings of the Combustion Institute,2005,(01):1333-1341.
  • 10蒋勇,邱榕.基于直接关系图法的碳氢燃料复杂化学机理简化[J].物理化学学报,2009,25(5):1019-1025. 被引量:19

二级参考文献52

  • 1董刚,邱榕,蒋勇,张和平.利用主成分分析法简化甲烷/空气层流预混火焰的反应机理[J].火灾科学,2004,13(3):158-162. 被引量:4
  • 2蒋勇,邱榕,董刚,范维澄.耦合天然气详细反应机理的三维湍流预混火焰结构数值预测[J].燃烧科学与技术,2005,11(2):109-115. 被引量:6
  • 3Lu,T.F.; Law,C.K.A directed relation graph method for mechanism reduction.In:30th symposium (international) on combustion.Pittsburgh:The Combustion Institute,2005:1333-1341
  • 4Lu,T.F.; Law,C.K.Combust.Flame,2006,144(1-2):24
  • 5Pepiot-Desjardins,P.; Pitsch,H.Combust.Flame,2008,154(1-2):67
  • 6Kee,R.J.; Rupley,F.M.; Miller,J.A.Chemkin-Ⅱ:a Fortran chemical kinetics package for the analysis of gas-phase chemical kinetics.Report SAND89-8009.Sandia,1989
  • 7Kee,R.J.; Grcar,J.F.; Smooke,M.D.; Miller,J.A.PREMIX:a Fortran program for modeling steady laminar one-dimensional premixed flames.Report SAND85-8240.Sandia,1985
  • 8Lutz,A.E.; Kee,R.J.; Miller,J.A.SENKIN:a Fortran program for predicting homogeneous gas phase chemical kinetics with sensitivity analysis.Report SAND87-8248.Sandia,1987
  • 9Valorani,M.; Creta,F.; Goussis,D.A.; Lee,J.C.Combust.Flame,2006,146(1-2):29
  • 10Peters,N.; Williams,F.A.Combust.Flame,1987,68(2):185

共引文献33

同被引文献57

  • 1钱炜祺,杨顺华,肖保国,乐嘉陵.碳氢燃料点火燃烧的简化化学反应动力学模型[J].力学学报,2007,39(1):37-44. 被引量:11
  • 2Bhargava A, Westmoreland P R. Measured Flame Struc- ture and Kinetics in a Fuel-Rich Ethylene Flame [J]. Contbustion and Flame, 1998, 113(3): 333-347.
  • 3Lu T, Law C K. Toward Accommodating Realistic Fuel Chemistry in Large-Scale Computations[J]. Progress in Energy and Combustion Science, 2009, 35 (2): 192- 215.
  • 4Marinov N M, Pitz W J, Westbrook C K, et al. Aromat- ic and Polycyelic Aromatic Hydrocarbon Formation in a Laminar Premixed n-Butane Flame [J]. Combustion and Flame, 1998, 114(1): 192-213.
  • 5Qin Z, Lissianski V V, Yang H, et al. Combustion Chemistry of Propane: A Case Study of Detailed Reac- tion Mechanism Optimization [J]. Proceedings of the Combustion Institute, 2000, 28(2) : 1663-1669.
  • 6Carriere T, Westmoreland P R, Kazakov A, et al. Mod- eling Ethylene Combustion From Low to High Pressure [J]. Proceedings of the Combustion Institute, 2002, 29 (1): 1257-1266.
  • 7o Conaire M, Curran H J, Simmie J M, et al. A Com- prehensive Modeling Study of Hydrogen Oxidation [J]. International Journal of Chemical Kinetics, 2004, 36 ( 11): 603-622.
  • 8Hal Wang, Xiaoqing You, Ameya V Joshi, et al. USC Mech Version II. High-Temperature Combustion Reac- tion Model of H2/CO/C1-C4 Compounds[EB/OL]. http:// ignis.usc.edu/USC_Mech_ILhtm, 2007.
  • 9Chen Z. Studies on the Initiation, Propagation, and Ex- tinction of Premixed Flames[ D ]. USA: Princeton Univer- sity, 2009.
  • 10Prager J, Najm H N, Valorani M, et al. Skeletal Mecha- nism Generation with CSP and Validation for Premixed n- Heptane Flames [J]. Proceedings of the Combustion Institute, 2009, 32( 1): 509-517.

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