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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 79Application of Genetic Algorithm in Chemical...

Application of Genetic Algorithm in Chemical Reaction Kinetics

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Abstract:

In this paper, a summary of Genetic Algorithm methods developed recent years applied in chemical reaction kinetics was presented. The applications of the Genetic Algorithm in reduction of the chemical reaction kinetics, estimation of the chemical kinetic parameters and calculation of the chemical kinetic equations were expounded here. Eventually, the confronted problem and developing trend of the application of Genetic Algorithm methods in chemical kinetics were reviewed.

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Chemical, Mechanical and Materials Engineering

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Periodical:

Applied Mechanics and Materials (Volume 79)

Pages:

71-76

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.79.71

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Online since:

July 2011

Authors:

Wei Zhong, Zhou Tian

Keywords:

Chemical Reaction Kinetics, Genetic Algorithm (GA), Numerical Computation Method

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© 2011 Trans Tech Publications Ltd. All Rights Reserved

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[1] Y. Xu: Chemical Reaction Kinetics (Chemical Industry Press, Beijing. 2008).

[2] L.Y. Yao and S.J. Peng: University Chemistry Vol. 20-1(2005), pp.59-64.

[3] Y.J. Yin and Z.K. Xi: Physical and Chemical Brief Tutorial (4th Edition) (Higher Education Press, Beijing. 2009).

[4] J.X. Zhang: Industrial Furnace Vol. 29-1 (2007), pp.41-44.

[5] B.G. Xiao, W.Q. Qian and S.H. Yang: Journal of Propulsion Technology Vol. 27-2(2006) pp.101-105.

[6] S.H. Yang, B.G. Xiao and Q.W. Qian: Journal of Experiments in Fluid Mechanics Vol. 23-2(2009), pp.1-4.

[7] J.M. Xiong, L.P. Zhang and J.Z. Lv: Computers and Applied Chemistry Vol. 20-1(2003), pp.159-162.

[8] Y.X. Ren and H.X. Chen: Computational Fluid Mechanics Foundation (Tsinghua University Press, Beijing. 2006).

[9] L.M. Li: China Basic Science Vol. 2 (2001), pp.16-21.

[10] X.Z. Zhang, G. Li and H.R. Zhan: Energy for Metallurgical Industry Vol. 27-5 (2008), pp.40-45.

[11] B. Qi and Z.Q. Wang: Computers and Applied Chemistry Vol. 25-8 (2008), pp.993-995.

[12] Jun C, Ayush G, Krista AN, et al: Int J Parrallel Prog Vol. 37 (2009), pp.127-152.

[13] M.J. Luo and Z. Huang: Journal of Shanghai Jiaotong University Vol. 39-8 (2005), pp.1266-1271.

[14] J.K. Ge, Y.H. Qiu and C.M. Wu: Application Research of Computers Vol. 10 (2008), pp.2911-2916.

[15] W.S. Zhang, Y.H. Yang and J.J. Xu: Modern Machinery Vol. 4 (2003), pp.4-6.

[16] J.P. Dong and Z.S. Han: Agriculture Network Information Vol. 07 (2000), pp.17-21.

[17] L. Zhou and T.T. Huo, in: The third China intelligent computation conference proceedings (Tsinghua University Mathematics, Beijing. 2009), pp.393-396.

[18] Z.M. Wang, Y. Dai and H. Zhao: Acta Armamentarii Vol. 8 (2009), pp.1143-1146.

[19] Z.G. Sun, C.G. Li and Q. Wang: Automation & Instrumentation Vol. 6 (2009), pp.5-7.

[20] X.Y. Kang, X. Zhu and Q. Liao: Chemical Engineering (China) Vol. 4 (2010), pp.21-24.

[21] L.L. Feng, F.M. Lei and Y.W. Gao: Journal of Lanzhou University (Natural Sciences) Vol. 3 (2009), pp.132-136.

[22] L. Li, Q. Yue and C.J. Tang: Chinese Physics C Vol. 3 (2011), pp.282-287.

[23] T. Tian, W.X. Jiao and X. Chen: Chinese Journal of Space Science Vol. 01 (2011), pp.93-99.

[24] P.Q. Zhao and X.F. Yan: Journal of East China University of Science and Technology (Natural Science Edition) Vol. 33-6 (2007), pp.835-840.

[25] J. Gu, F.Q. Chen and Q.L. Dai: Journal of Chemical Engineering of Chinese Universities Vol. 4-13 (1999), pp.346-351.

[26] Y.S. Xu, H.B. Li and H.P. Fang: Acta Physica Sinica Vol. 53-3 (2004), pp.773-777.

[27] X.L. Zhan, Z.H. Luo and F.Q. Chen: Chemical Journal of Chinese Universities Vol. 24 (2003), pp.1511-1514.

[28] X.K. Guo, L.Z. Zou and J.F. Deng: Computers and Applied Chemistry Vol. 24-8 (2007), pp.1138-1144.

[29] H. Zhan and Z.Q. Qian: Computers and Applied Chemistry Vol. 24-11 (2007), pp.1484-1488.

[30] Q.F. Zhen, G.D. Shu and X.L. Shen: Chemical Reaction Engineering and Technology Vol. 23-6 (2007), pp.525-530.

[31] X.F. Huang, L.D. Pan and B.H. Chen: Journal of Chemical Engineering of Chinese Universities Vol. 13-1 (1999), pp.50-55.

[32] X.F. Yan, J. Yu and F. Qian: Journal of East China University of Science and Technology (Natural Science Edition) Vol. 32-1 (2006), pp.94-97.

[33] S.B. Yang and B.L. Yang: Journal of Chemical Industry and Engineering(China) Vol. 53-1 (2002), pp.54-59.

[34] L. Elliott, D.B. Ingham and A.G. Kyne, et al: Engineering Applications of Artificial Intelligence Vol. 18 (2005), pp.825-831.

[35] L. Elliott, D.B. Ingham and A.G. Kyne, et al: Progress in Energy and Combustion Science Vol. 30 (2004), pp.297-328.