Your search keyword '"Guan M.Y."' showing total 2 results

1. Effects of wind on transient dispersion of active particles in a free-surface wetland flow.

Author

Guan, M.Y., Zeng, L., Jiang, W.Q., Guo, X.L., Wang, P., Wu, Z., Li, Z., and Chen, G.Q.

Subjects

*OPEN-channel flow, *GAUSSIAN distribution, *DISPERSION (Chemistry), *MOMENTS method (Statistics), *CELL motility, *WETLANDS, *HUMAN migrations

Abstract

Mechanisms of active-particle transport in a wetland flow under wind are significant for understanding various biological and ecological processes associated with wetlands. A transport model has been formulated to characterize the transient dispersion of active particles in a typical free-surface wetland flow exposed to wind. The transient evolution of total quantity, centred moving velocity, longitudinal dispersivity, skewness, and kurtosis of the active-particle cloud are analysed, using concentration moment method. It is found that the migration of active-particle cloud can eventually reach a stable status under the combined action of wind, hydrodynamics, and cell motility. The strong reverse wind can result in the negative centred moving velocity and longitudinal dispersivity along each streamline. The strong wind can considerably change the skewness and kurtosis of cell concentration distribution. The analytical solution of depth-averaged and two-dimensional concentration of active particles are derived based on Chatwin's long-time expansion method, showing a distinct deviation from Gaussian distribution during the initial stage, which is in good agreement with the concentration moment analysis. • A model is given for active-particle transport in a wetland flow under wind. • Effects of wind on longitudinal dispersion of active particles are given. • Effects of wind on skewness of active-particle distribution are given. • Effects of wind on kurtosis of active-particle distribution are given. • Analytical solutions are derived for 2-D concentration of active particles. [ABSTRACT FROM AUTHOR]

Published

2022

2. Transport model of active particles in a tidal wetland flow.

Author

Guan, M.Y., Zeng, L., Li, C.F., Guo, X.L., Wu, Y.H., and Wang, P.

Subjects

*BIOLOGICAL transport, *WETLANDS, *FINITE difference method, *VERTICAL motion, *CENTER of mass

Abstract

• A model is given for migration of active particles in a tidal wetland flow. • An analytical solution is derived for mass distribution of active particles. • An analytical solution is given for moving velocity of active particles. • A numerical analysis is performed for longitudinal dispersion coefficient. • Effects of parameters on dispersion of active particles are given. A concentration transport model has been formulated to characterize the transport of a mass of self-propelling active particles in an unsteady wetland flow at the phase-averaged scale. The vertical distribution and motion of mass center are rigorously derived for an active-particle cloud in the tidal wetland flow by use of the concentration moment method, while the longitudinal dispersivity is calculated by means of finite difference method. It is found that the distribution of total quantity of active particles in each streamline in the tidal wetland flow is identical to that in the fully developed wetland flow. The velocity and longitudinal dispersivity of mass center of the active-particle cloud eventually reach a stable oscillatory status for the case of tidal wetland flow rather than an asymptotic constant velocity which occurs in the steady wetland flow. The effects of dimensionless parameters on the amplitude, phase and period of the velocity of mass center and longitudinal dispersivity are discussed in detail for the active-particle cloud in the tidal wetland flow. [ABSTRACT FROM AUTHOR]

Published

2021