Asymptotic behavior of the Taylor-expansion method of moments for solving a coagulation equation for Brownian particles 被引量：2

Asymptotic behavior of the Taylor-expansion method of moments for solving a coagulation equation for Brownian particles

原文传递

导出

摘要 The evolution equations of moments for the Brownian coagulation of nanoparticles in both continuum and free molecule regimes are analytically studied. These equations are derived using a Taylor-expansion technique. The self-preserving size distribution is investigated using a newly defined dimensionless parameter, and the asymptotic values for this parameter are theoretically determined. The dimensionless time required for an initial size distribution to achieve self-preservation is also derived in both regimes. Once the size distribution becomes self-preserving, the time evolution of the zeroth and second moments can be theoretically obtained, and it is found that the second moment varies linearly with time in the continuum regime. Equivalent equations, rather than the original ones from which they are derived, can be employed to improve the accuracy of the results and reduce the computational cost for Brownian coagulation in the continuum regime as well as the free molecule regime. The evolution equations of moments for the Brownian coagulation of nanoparticles in both continuum and free molecule regimes are analytically studied. These equations are derived using a Taylor-expansion technique. The self-preserving size distribution is investigated using a newly defined dimensionless parameter, and the asymptotic values for this parameter are theoretically determined. The dimensionless time required for an initial size distribution to achieve self-preservation is also derived in both regimes. Once the size distribution becomes self-preserving, the time evolution of the zeroth and second moments can be theoretically obtained, and it is found that the second moment varies linearly with time in the continuum regime. Equivalent equations, rather than the original ones from which they are derived, can be employed to improve the accuracy of the results and reduce the computational cost for Brownian coagulation in the continuum regime as well as the free molecule regime.

作者 Zhongli Chen Jianzhong Lin Mingzhou Yu

机构地区 Zhejiang University China Jiliang University

出处《Particuology》 SCIE EI CAS CSCD 2014年第3期124-129,共6页 颗粒学报（英文版）

基金 financially supported by the Major Program of National Natural Science Foundation of China(no.11132008)

关键词 Brownian particles Coagulation Size distribution Accuracy Brownian particles Coagulation Size distribution Accuracy

分类号 O641.3 [理学—物理化学]

引文网络
相关文献

参考文献25

1Barrett, J. c., & Webb, N. A. (1098). A comparison of some approximate methods for solving the aerosol general dynamic equation.Journal of Aerosol Science, 29(1/2 ): 31-39.
2Frenklach, M. (1985). Dynamics of discrete distribution for Smoluchowski coagula- tion model.Journal of Colloid and Interface Science, 108(1 ): 237-242.
3Friedlander, S. K. (2000). Smoke, dust, and haze: Fundamentals of aerosol dynamics (2nd ed.). New York: Oxford University Press.
4Friedlander, S. K., & Wang, C. S. (1966). The self-preserving particle size distribu- tion for coagulation by brownian motion.Journal of Colloid and Interface Science, 22(2): 126-132.
5Gelbard, F., & Seinfeld,J. H. (1980). Simulation ofmulticomponent aerosol dynamics. Journal of Colloid and Interface Science, 78(2): 485-501.
6Gelbard, F., Tambour, Y., & Seinfeld,J. H. (1980). Sectional representations for simu- lating aerosol dynamics.Journal of Colloid and Interface Science, 7"6(2): 541-556.
7Gordon, R. G. (1968). Error bounds in equilibrium statistical mechanics. Journal of Mathematical Physics, 9(5): 655-663.
8Hidy, G. M. (1965). On the theory of coagulation of noninteracting particles in Brown- ian motion.Journal of Colloid Science, 20(2): 123-144.
9Lai, F. 5., Friedlan, 5. K., Pich, J., & Hidy, G. M. (1972). The self-preserving particle- size distribution for Brownian coagulation in the free-molecule regime.Journal of Colloid and Interface Science, 39(2): 395-405.
10Lee, K. W. (1983). Change of particle-size distribution during Brownian coagulation. Journal of Colloid and Interface Science, 92(2): 315-325.

同被引文献4

1Deming Nie,Jianzhong Lin.A fluctuating lattice-Boltzmann model for direct numerical simulation of particle Brownian motion[J].Particuology,2009,7(6):501-506. 被引量：3
2LIN JianZhong,CHEN ZhongLi.A modified TEMOM model for Brownian coagulation of nanoparticles based on the asymptotic solution of the sectional method[J].Science China(Technological Sciences),2013,56(12):3081-3092. 被引量：3
3石兴,张帅,王双连.Numerical simulation of hemodynamic interactions of red blood cells in micro- capillary flow[J].Journal of Hydrodynamics,2014,26(2):178-186. 被引量：2
4尹招琴,林建忠,娄明.Penetration efficiency of nanoparticles in a bend of circular cross-section[J].Journal of Hydrodynamics,2015,27(1):93-98. 被引量：1

引证文献2

1Mingzhou Yu,Jianzhong Lin,Junji Cao,Martin Seipenbusch.An analytical solution for the population balance equation using a moment method[J].Particuology,2015,13(1):194-200. 被引量：5
2林建忠,于明州,聂德明.On the nanoparticulate flow[J].Journal of Hydrodynamics,2016,28(6):961-970.

二级引证文献5

1Hongmei Liu,Tat Leung Chan.Differentially weighted operator splitting Monte Carlo method for simulating complex aerosol dynamic processes[J].Particuology,2018,16(1):114-126. 被引量：2
2Dongyue Li,Zhipeng Li,Zhengming Gao.Quadrature-based moment methods for the population balance equation: An algorithm review[J].Chinese Journal of Chemical Engineering,2019,27(3):483-500. 被引量：8
3卢绍文,蔚润琴,崔玉洁.磨矿破碎过程粒度分布的分布式参数蒙特卡洛动力学模拟及加速方法[J].自动化学报,2019,45(9):1655-1665. 被引量：2
4杨海林,林建忠.微纳颗粒两相流系统中湍流脉动效应研究综述[J].空气动力学学报,2021,39(3):117-128. 被引量：1
5柳祝勋,杨光,吴静怡.基于矩量法的过渡区颗粒沉积核函数修正及结果验证[J].化工学报,2024,75(12):4468-4476.

1游淑军,宁效琦,刘振海.广义准二维玻色-爱因斯坦凝聚方程的初边值问题[J].西安理工大学学报,2011,27(4):477-480.
2Mingzhou Yu,Jianzhong Lin,Junji Cao,Martin Seipenbusch.An analytical solution for the population balance equation using a moment method[J].Particuology,2015,13(1):194-200. 被引量：5
3张国梁.求方程根的一种拟Newton方法[J].陕西水利,1989(3):22-27.
4王卫群.泰勒展开方法在积分近似计算中的应用[J].气象教育与科技,1994(1):32-34.
5LIN JianZhong,CHEN ZhongLi.A modified TEMOM model for Brownian coagulation of nanoparticles based on the asymptotic solution of the sectional method[J].Science China(Technological Sciences),2013,56(12):3081-3092. 被引量：3
6许以超.Automorphism group of exceptional symmetric domains R_(VI)[J].Science China Mathematics,2000,43(10):1035-1045. 被引量：2
7ZHAO Kai,WU Xi-zhen,LI Zhu-xia,ZHAO Zhi-xiang.Study of Mass Parameter Based on Quantum Molecular Dynamics Model[J].Annual Report of China Institute of Atomic Energy,2006(1):76-77.
8赵修成,黄浪扬.KdV方程的一个紧致差分格式[J].工程数学学报,2015,32(6):876-882. 被引量：2
9HU MingLiang,TIAN DongPing.Effects of impurity on the entanglement of the three-qubit Heisenberg XXX spin chain[J].Science China(Physics,Mechanics & Astronomy),2007,50(2):208-214. 被引量：5
10Guo Wenjun, Liu Jianye, Xing Yongzhong, Zyi Wei and Li Xiguo.Isospin Influence of Colliding System on Nucleon Emissions in Intermediate Energy Heavy Ion Collisions[J].IMP & HIRFL Annual Report,2001(1):8-8.

Particuology

2014年第3期

浏览历史

内容加载中请稍等...

Asymptotic behavior of the Taylor-expansion method of moments for solving a coagulation equation for Brownian particles 被引量：2

参考文献25

同被引文献4

引证文献2

二级引证文献5

相关作者

相关机构

相关主题

浏览历史