English

Gelfand-type problem for turbulent jets

Analysis of PDEs 2020-06-02 v1 Classical Analysis and ODEs

Abstract

We consider the model of auto-ignition (thermal explosion) of a free round reactive turbulent jet. This model falls into the general class of Gelfand-type problems and constitutes a boundary value problem for a certain semi-linear elliptic equation that depends on two parameters: α\alpha characterizing the flow rate and λ\lambda (Frank-Kamentskii parameter) characterizing the strength of the reaction. Similarly to the classical Gelfand problem, this equation admits a solution when the Frank-Kametskii parameter λ\lambda does not exceed some critical value λ(α)\lambda^*(\alpha) and admits no solutions for larger values of λ\lambda. We obtain the sharp asymptotic behavior of the critical Frank-Kamenetskii parameter in the strong flow limit (α1\alpha\gg1). We also provide a detailed description of the extremal solution (i.e., the solution corresponding to λ\lambda^*) in this regime.

Cite

@article{arxiv.1905.11504,
  title  = {Gelfand-type problem for turbulent jets},
  author = {Peter V. Gordon and Vitaly Moroz and Fedor Nazarov},
  journal= {arXiv preprint arXiv:1905.11504},
  year   = {2020}
}

Comments

26 pages

R2 v1 2026-06-23T09:27:46.557Z