Numerical methods for the simulation of a coalescence-driven droplet size distribution

被引:15
|
作者
Bordas, Robert [1 ]
John, Volker [2 ,3 ]
Schmeyer, Ellen [2 ]
Thevenin, Dominique [1 ]
机构
[1] Univ Magdeburg, LSS ISUT, D-39106 Magdeburg, Germany
[2] Leibniz Inst Forsch Sverbund Berlin eV WIAS, Weierstrass Inst Appl Anal & Stochast, D-10117 Berlin, Germany
[3] Free Univ Berlin, Dept Math & Comp Sci, D-14195 Berlin, Germany
来源
THEORETICAL AND COMPUTATIONAL FLUID DYNAMICS | 2013年 / 27卷 / 3-4期
关键词
VARIATIONAL MULTISCALE METHOD; NAVIER-STOKES EQUATIONS; FINITE-ELEMENT METHODS; CONVECTION-DIFFUSION EQUATIONS; POPULATION BALANCE SYSTEMS; QUADRATURE METHOD; BENCHMARK PROBLEM; CLOUD DROPLETS; TURBULENT-FLOW; MOMENTS;
D O I
10.1007/s00162-012-0275-9
中图分类号
O3 [力学];
学科分类号
08 ; 0801 ;
摘要
The droplet size distribution in a turbulent flow field is considered and modeled by means of a population balance system. This paper studies different numerical methods for the 4D population balance equation and their impact on an output of interest, the time-space-averaged droplet size distribution at the outlet, which is known from experiments. These methods include different interpolations of the experimental data at the inlet, various discretizations in time and space, and different schemes for computing the coalescence integrals. It will be shown that noticeable changes in the output of interest might occur. In addition, the computational efficiency of the studied methods is discussed.
引用
收藏
页码:253 / 271
页数:19
相关论文
共 50 条
  • [21] Modeling droplet collision and coalescence in an icing wind tunnel and the influence of these processes on droplet size distribution
    Kollár, LE
    Farzaneh, M
    Karev, AR
    INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, 2005, 31 (01) : 69 - 92
  • [22] Direct numerical simulation of coalescence and separation of binary droplet collision with lamella stabilization
    Yu, Weidong
    Chang, Shinan
    PHYSICS OF FLUIDS, 2024, 36 (11)
  • [23] Numerical simulation of the coalescence-induced polymeric droplet jumping on superhydrophobic surfaces
    Bazesefidpar, Kazem
    Brandt, Luca
    Tammisola, Outi
    JOURNAL OF NON-NEWTONIAN FLUID MECHANICS, 2022, 307
  • [24] Numerical Simulation and Statistical Modeling of Inertial Droplet Coalescence in Homogeneous Isotropic Turbulence
    Wunsch, Dirk
    Fede, Pascal
    Simonin, Olivier
    Villedieu, Philippe
    TURBULENCE AND INTERACTIONS, 2010, 110 : 401 - +
  • [25] A Numerical Simulation of Multiple-Droplet Coalescence Characteristics under an Electric Field
    Meng, Min
    Feng, Silong
    CHEMICAL ENGINEERING & TECHNOLOGY, 2023, 46 (09) : 1808 - 1816
  • [26] Experimental and numerical analysis of shear-driven droplet coalescence on surfaces with various wettabilities
    Yeganehdoust, Firoozeh
    Hanson, Jack
    Johnson, Zachary
    Jadidi, Mehdi
    Moghtadernejad, Sara
    PHYSICS OF FLUIDS, 2023, 35 (02)
  • [27] The impact of fluctuations and correlations in droplet growth by collision-coalescence revisited - Part 1: Numerical calculation of post-gel droplet size distribution
    Alfonso, Lester
    Raga, Graciela B.
    ATMOSPHERIC CHEMISTRY AND PHYSICS, 2017, 17 (11) : 6895 - 6905
  • [28] Numerical modelling of bubble coalescence and droplet separation
    Yan, Y. Y.
    Zu, Y. Q.
    COMPUTATIONAL METHODS IN MULTIPHASE FLOW IV, 2007, 56 : 227 - +
  • [29] A multiphase ISPH method for simulation of droplet coalescence and electro-coalescence
    Rahmat, A.
    Yildiz, M.
    INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, 2018, 105 : 32 - 44
  • [30] Mechanism and simulation of droplet coalescence in molten steel
    Ni, Bing
    Zhang, Tao
    Ni, Hai-qi
    Luo, Zhi-guo
    INTERNATIONAL JOURNAL OF MINERALS METALLURGY AND MATERIALS, 2017, 24 (11) : 1251 - 1259
12345