Study on the synergy inhibition of ultrafine water mist and metal wire mesh on the syngas explosion.

Synergy inhibition of wire mesh and spray mist on syngas explosion was researched. The correspondence between the explosion parameters under success and failure conditions were analyzed, and its influence regular and inhibition mechanism were revealed. An evident difference appeared in the correspondence at different synergy results. Compared with the failure, the pressure of lower end only experienced an acceleration rise under the success condition although the propagation velocity of flame was slightly increased as it approached wire mesh. Corresponding pressure was also reduced. After passing through wire mesh, flame propagation was evidently accelerated due to the turbulence disturbance caused by wire mesh despite the strong endothermic effect of mist. The corresponding explosion reaction rate was also increased. Pressures of two ends did not appear obvious change under the success condition, but the pressure of upper end was evidently reduced compared with the failure. Due to the combined effect of wire mesh disturbance and mist heat absorption, the velocity history showed a change of increasing firstly and then decreasing as the spray time increased after passing through wire mesh. The synergy inhibition was attributed to the combined physical and chemical effects, and was related to the syngas concentration and spray amount. [Display omitted] • Synergy effect of resistance/inhibition on protection of gas explosion was studied. • Correspondence between explosion parameter during success and failure was clarified. • Effects of mist amount and syngas concentration on explosion parameter were grasped. • Critical value of synergy effect for complete inhibition of explosion was proposed. • Effective engineering guidance was proposed and its synergy mechanism was revealed. [ABSTRACT FROM AUTHOR]