@Article{CSIAM-AM-3-3, author = {Feng, Dai and Liu, Bin}, title = {Boundedness and Asymptotic Behavior in a 3D Keller-Segel-Stokes System Modeling Coral Fertilization with Nonlinear Diffusion and Rotation}, journal = {CSIAM Transactions on Applied Mathematics}, year = {2022}, volume = {3}, number = {3}, pages = {515--563}, abstract = {
This paper deals with the four-component Keller-Segel-Stokes model of coral fertilization $$\begin{cases} n_t+u\cdot \nabla n=\Delta n^m-\nabla\cdot(nS(x,n,c)\cdot \nabla c)-n\rho, \\ c_t+u\cdot \nabla c=\Delta c-c+\rho, \\\rho_t+u\cdot \nabla\rho=\Delta\rho-n\rho, \\ u_t+\nabla P=\Delta u+(n+\rho)\nabla\phi, ~\nabla\cdot u=0\end{cases}$$ in a bounded and smooth domain $Ω⊂\mathbb{R}^3$ with zero-flux boundary for $n,$ $c,$ $\rho$ and no-slip boundary for $u,$ where $m>0,$ $\phi∈W^{2,∞}(Ω),$ and $S: \overline{Ω}×[0,∞)^ 2→\mathbb{R}^{3×3}$ is given sufficiently smooth function such that $|S(x,n,c)|≤S_0(c)(n+1)^{−α}$ for all $(x,n,c)∈\overline{Ω}×[0,∞)^2$ with $α≥0$ and some nondecreasing function $S_0 : [0,∞)\mapsto [0,∞).$ It is shown that if $m> 1−α$ for $0≤α≤\frac{2}{3},$ or $m≥ \frac{1}{3}$ for $α>\frac{2}{3},$ then for any reasonably regular initial data, the corresponding initial-boundary value problem admits at least one globally bounded weak solution which stabilizes to the spatially homogeneous equilibrium $(n_∞,\rho_∞,\rho_∞,0)$ in an appropriate sense, where $n_∞ := \frac{1}{|Ω|}\{\int_Ω n_0−\int_Ω\rho_0\}_+$ and $\rho_∞ :=\frac{1}{|Ω|}\{\int_Ω\rho_0−\int_Ω n0\}_+.$ These results improve and extend previously known ones.
}, issn = {2708-0579}, doi = {https://doi.org/10.4208/csiam-am.SO-2021-0041}, url = {https://global-sci.com/article/82327/boundedness-and-asymptotic-behavior-in-a-3d-keller-segel-stokes-system-modeling-coral-fertilization-with-nonlinear-diffusion-and-rotation} }