A flame propagation model on a network with application to a blocking problem

Abstract

We consider the Cauchy problem \[∂t u+H(x,Du)=0 (x,t)∈Γ× (0,T), u(x,0)=u0(x) x∈Γ\] where Γ is a network and H is a convex and positive homogeneous Hamiltonian which may change from edge to edge. In the former part of the paper, we prove that the Hopf-Lax type formula gives the (unique) viscosity solution of the problem. In the latter part of the paper we study a flame propagation model in a network and an optimal strategy to block a fire breaking up in some part of a pipeline; some numerical simulations are provided.