Comparative Study of the Ignition of 1-Decene, trans-5-Decene, and n-Decane: Constant-Volume Spray and Shock-Tube Experiments

Abstract

We report ignition delay time measurements carried out in both constant-volume spray and homogeneous gas-phase shock-tube environments at high pressures (1–4 MPa) for 1-decene, trans-5-decene, and n-decane. These measurements provide quantitative kinetic targets for the development of reaction mechanisms and assessment of the relative reactivity of these compounds under low-temperature, negative-temperature-coefficient (NTC), and high-temperature conditions. Derived cetane number (DCN) measurements carried out in spray ignition experiments are shown to be well-correlated with shock-tube ignition delay measurements in the NTC region, both of which show substantially reduced oxidative reactivity for the compounds containing double bonds (n-decane versus n-decenes) and lower reactivity for centrally located double bonds (trans-5-decene) compared to a double bond at the end of the carbon chain (1-decene). Ignition delays in both the shock tube and spray show differences of factors of 2–4 for NTC and low-tempe...