Heat and momentum losses in H2–O2–N2/Ar detonations: on the existence of set-valued solutions with detailed thermochemistry
DATE:
2024-06-21
UNIVERSAL IDENTIFIER: http://hdl.handle.net/11093/7102
EDITED VERSION: https://link.springer.com/10.1007/s00193-024-01182-5
UNESCO SUBJECT: 3303 Ingeniería y Tecnología Químicas
DOCUMENT TYPE: article
ABSTRACT
The effect of heat and momentum losses on the steady solutions admitted by the reactive Euler equations with sink/source terms is examined for stoichiometric hydrogen–oxygen mixtures. Varying degrees of nitrogen and argon dilution are considered in order to access a wide range of effective activation energies, Ea,eff/RuT0, when using detailed thermochemistry. The main results of the study are discussed via detonation velocity-friction coefficient (D–cf) curves. The influence of the mixture composition is assessed, and classical scaling for the prediction of the velocity deficits, D(cf,crit)/DCJ, as a function of the effective activation energy, Ea,eff/RuT0, is revisited. Notably, a map outlining the regions where set-valued solutions exist in the Ea,eff/RuT0–α space is provided, with α denoting the momentum–heat loss similarity factor, a free parameter in the current study.