| Title:
|
Boundedness and stabilization in a three-dimensional two-species chemotaxis-Navier-Stokes system (English) |
| Author:
|
Hirata, Misaki |
| Author:
|
Kurima, Shunsuke |
| Author:
|
Mizukami, Masaaki |
| Author:
|
Yokota, Tomomi |
| Language:
|
English |
| Journal:
|
Proceedings of Equadiff 14 |
| Volume:
|
Conference on Differential Equations and Their Applications, Bratislava, July 24-28, 2017 |
| Issue:
|
2017 |
| Year:
|
|
| Pages:
|
11-20 |
| . |
| Category:
|
math |
| . |
| Summary:
|
This paper is concerned with the two-species chemotaxis-Navier–Stokes system with Lotka–Volterra competitive kinetics \begin{align*} \begin{cases} (\n1)_t+u\cdot\na\n1 =\D\n1-\chi_1\na\cdot(\n1\na c)+\mu_1\n1(1-\n1-a_1\n2) &\text{in}\ \om\times(0,\infty), \\ (\n2)_t+u\cdot\na\n2 =\D\n2-\chi_2\na\cdot(\n2\na c)+\mu_2\n2(1-a_2\n1-\n2) &\text{in}\ \om\times(0,\infty), \\ \h{6.3mm}c_t+u\cdot\na c =\D c-(\alpha\n1+\beta\n2)c &\text{in}\ \om\times(0,\infty), \\ \h{3.1mm}u_t+(u\cdot\na)u =\D u+\nabla P+(\gamma\n1+\d\n2)\na\Phi, \quad\na\cdot u=0 &\text{in}\ \om\times(0,\infty) \end{cases} \end{align*} under homogeneous Neumann boundary conditions and initial conditions, where is a bounded domain in R3 with smooth boundary. Recently, in the 2-dimensional setting, global existence and stabilization of classical solutions to the above system were first established. However, the 3-dimensional case has not been studied: Because of difficulties in the Navier–Stokes system, we can not expect existence of classical solutions to the above system. The purpose of this paper is to obtain global existence of weak solutions to the above system, and their eventual smoothness and stabilization. (English) |
| Keyword:
|
Chemotaxis, Navier–Stokes, Lotka–Volterra, large-time behaviour |
| MSC:
|
35B40 |
| MSC:
|
35K55 |
| MSC:
|
35Q30 |
| MSC:
|
92C17 |
| . |
| Date available:
|
2019-09-27T07:31:51Z |
| Last updated:
|
2019-09-27 |
| Stable URL:
|
http://hdl.handle.net/10338.dmlcz/703017 |
| . |
| Reference:
|
[1] Bellomo, N., Bellouquid, A., Tao, Y., Winkler, M.: Toward a mathematical theory of Keller–Segel models of pattern formation in biological tissues., Math. Models Methods Appl. Sci., 25 (2015), pp. 1663–1763. MR 3351175, 10.1142/S021820251550044X |
| Reference:
|
[2] Cao, X., Kurima, S., Mizukami, M.: Global existence and asymptotic behavior of classical solutions for a 3D two-species chemotaxis-Stokes system with competitive kinetics., arXiv: 1703.01794 [math.AP]. MR 3805111 |
| Reference:
|
[3] Cao, X., Kurima, S., Mizukami, M.: Global existence and asymptotic behavior of classical solutions for a 3D two-species Keller–Segel-Stokes system with competitive kinetics., arXiv: 1706.07910 [math.AP]. MR 3805111 |
| Reference:
|
[4] Hirata, M., Kurima, S., Mizukami, M., Yokota, T.: Boundedness and stabilization in a two-dimensional two-species chemotaxis-Navier–Stokes system with competitive kinetics., J. Differential Equations, 263 (2017), pp. 470–490. MR 3631313, 10.1016/j.jde.2017.02.045 |
| Reference:
|
[5] Lankeit, J.: Long-term behaviour in a chemotaxis-fluid system with logistic source., Math. Models Methods Appl. Sci., 26 (2016), pp. 2071–2109. MR 3556640, 10.1142/S021820251640008X |
| Reference:
|
[6] Tao, Y., Winkler, M.: Blow-up prevention by quadratic degradation in a two-dimensional Keller–Segel-Navier–Stokes system., Z. Angew. Math. Phys., 67 (2016), Article 138. MR 3562386 |
| . |
