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H原子与CH_3NH_2抽氢反应的动力学计算 被引量:1

Kinetic calculation on the hydrogen abstraction reaction between H and CH_3NH_2
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摘要 用QCISD(T)/6-311++G(3DF,3PD)/MP2/6-311G(D,P)方法研究了H原子与CH3NH2的抽氢反应过程。该反应包含两个反应通道:H分别从CH3基团(R1)和NH2(R2)基团上抽氢。R1势垒比R2势垒低3.42kJ/mol,表明R1是主反应通道。在从头算的基础上,用变分过渡态理论(CVT)加小曲率隧道效应(SCT)研究了各反应温度范围为200~4000K内的速率常数,所得结果与实验值符合的很好。动力计算表明,在所研究的温度范围内,变分效应对速率常数的计算影响不大,而在低温范围内,隧道效应起了很重要的作用。 Hydrogen abstraction reaction between H and CH3NH2 is explored using the QCISD(T)/6 -311 + + G(3df,3pd)// MP2/6 -311 C(d,p) method. This reaction takes place through two channels: H abstraction from methyl group (CH3 ) (R1)and amido group( NH2 ) (R2). The potential barrier of R1 is about 17.41 k J/tool lower than that of R2, which shows RI is the major reaction channels. On the basis of the ab initio data, the rate constants for each channel were evaluated using canonical variational transition state theory(CVT)with the small- curvature tunneling correction (SCT)method over a wide temperature range of 200 - 4000 K, The total rate constants are in excellent agreement with the experimental values. The kinetic calculation indicates that the variational effect on the calculation of rate constants is small over the whole temperature range and the trnneling correction plays an important role in the lower temperature range for all the channels.
作者 马咏梅 陈世荣
机构地区 陕西师范大学化学与材料科学学院
出处 《化学研究与应用》 CAS CSCD 北大核心 2006年第5期515-520,共6页 Chemical Research and Application
关键词 抽氢反应 QCISD(T)//MP2 速率常数 Hydrogen abstraction reaction QCISD (T)//MP2 rate constant
分类号 O641.121 [理学—物理化学]
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参考文献29

  • 1Schade G. W, Crutzen P. J. Emission of aliphatic amines from animal husbandry and their reactions: Potential source of N2O and HCN [ J] ,J. Atmos. Chem, 1995,22: 319 - 346(and rferences therein).
  • 2Crutzen P. J. Ozone production rates in the oxygen - hydrogen - nitrogen atmosphere [ J ], J. Geophys. Res. 1971, 76:7311 - 7327.
  • 3McElroy M. B, McConnell, J. C. Nitrous oxide: A natural source of stratospheric NO [ J ], J. Atmos. Sci. 1971,28 : 1095 - 1098.
  • 4Houthton J. T, Callander B. A, Varnay, S. K. Eds Intergovemmental Panel on Climatic Change (IPCC). Climate Change;The supplementary report to the IPCC Scientific Assessment [ M ], New York: Cambridge University Press :, 1992.
  • 5Lindley C. R. C, Calver J. G, Shaw J. H. Rate studies of the Reactions of the (CH3 )2 N radical with O2, NO and NO2[ J] ,Chem Phys. Leys. Lett. 1979,67:57 -62.
  • 6Kantak M. V,De Manrique A. S,Aglave A. H,et al. Methylamine oxidation in a flow reactor: Mechanism and modeling [ J], Combustion and Flame. 1997,108,235 -265.
  • 7Wetmore O. C, Austin T. H. The photolysis of methylamine [J] ,J. Chem. Phys. 1944,12:61 -68.
  • 8Higashihara T, Gardiner W. C., Jr, Hwang S. M. Shock tube and modeling study of methylamine thermal decomposition [ J] J. Phys. Chem. 1987,91 : 1900 - 1905.
  • 9Hwang S. M, Higashihara T, Shin K. S, et al. Shock tube and modeling study of monomethylamine oxidation[ J ] ,J. Phys. Chem. 1990,94:2883 - 2889.
  • 10Williams B. A, Flemings J. W. Radical Species Profiles in Low Pressure Methane Flames Containing Fuel Nitrogen Compounds[ J] Combustion and Flame , 1997,110 : 1 -13.

二级参考文献45

  • 1杨捷,梁国明,田安民,鄢国森.H_3PO→H_2POH异构化反应的LMO研究[J].物理化学学报,1994,10(4):367-370. 被引量:5
  • 2Gordon M. S, Boatz J. A, Schmidt M. W. J. Phys. Chem.[J]. 1984, 88: 2998-3002
  • 3Schmidt M. W, Yabushita S, Gordon M. S. J. Phys. Chem.[J]. 1984, 88: 382-389
  • 4Schmidt M. W, Gordon M. S. J. Am. Chem. Soc.[J]. 1985, 107: 1922-1930
  • 5Boatz J. A, Schmidt M. W, Gordon M. S. J. Phys. Chem.[J]. 1987, 91: 1743-1749
  • 6Lohr L. L, Boehm R. C. J. Phys. Chem.[J]. 1987, 91: 3203-3207
  • 7Zhang S, Truong T. N. VKLab. Version 1.0 ed, University of Utah, 2001
  • 8Truong T. N, Truhlar D. G. J.Chem. Phys.[J]. 1990, 93: 1761-1769
  • 9Allison T. C, Lynch G. C, Truhlar D. G. et al. J. Phys. Chem.[J]. 1996, 100: 13575-13587
  • 10Liu Y, Lynch G. C, Troung T. N. et al. J. Am. Chem. Soc.[J]. 1993, 115: 2408-2415

共引文献8

同被引文献16

  • 1周宏伟,周歌,郑文旭,田安民.量子化学计算中基组效应对几何结构和性质影响的研究[J].化学研究与应用,2006,18(9):1029-1034. 被引量:3
  • 2Seiser R,Pitsch H,Seshadri K. Extinction and au-toignition of n-heptane in countflow configuration[J].Proc Combus Ins,2000,(02):2029-2037.
  • 3Curran H J,Gafuri P,Pitz W G,et a1. A comprehensive modeling study of n-heptane oxidation[J].{H}Combustion and Flame,1998,(1-2):l49-177.
  • 4Benson S W. Thermochemical Kinetics[M].{H}New York:Wiley,1968.10-25.
  • 5Redfern P C,Zapol P,Curtiss L A. Assessment of Gaussian-3 and density functional theories for enthalpies of formation of C-1-C-16 alkanes[J].{H}Journal of Physical Chemistry A,2000,(24):5850-5854.
  • 6Curtiss L A,Redfern P C,Raghavachari K. Assessment of Gaussian-3 and density-functional theories on the G3/05 test set of experimental energies[J].{H}Journal of Chemical Physics,2005,(12):124107-124120.
  • 7高执棣;郭国霖.统计热力学导论[M]{H}北京:北京大学出版社,200415-25.
  • 8McQuarrie D A. Statistical Mechanics[M].New York:Happer&Row,1973.38-52.
  • 9Kee R J,Grear J F,Smooke M D. Chemkin-II:a Fortran chemical kinetics package for the analysis of gas-phase chemical kinetics.Report SAND89-8009[M].Sandia,1989.
  • 10严传俊;范玮.燃烧学[M]{H}西安:西北工业大学出版社,200475-76.

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化学研究与应用
2006年 第5期

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