CFCl3 (CFC‐11): UV absorption spectrum temperature dependence measurements and the impact on its atmospheric lifetime and uncertainty

Abstract

AbstractCFCl3 (CFC‐11) is both an atmospheric ozone‐depleting and potent greenhouse gas that is removed primarily via stratospheric UV photolysis. Uncertainty in the temperature dependence of its UV absorption spectrum is a significant contributing factor to the overall uncertainty in its global lifetime and, thus, model calculations of stratospheric ozone recovery and climate change. In this work, the CFC‐11 UV absorption spectrum was measured over a range of wavelength (184.95–230 nm) and temperature (216–296 K). We report a spectrum temperature dependence that is less than that currently recommended for use in atmospheric models. The impact on its atmospheric lifetime was quantified using a 2‐D model and the spectrum parameterization developed in this work. The calculated global annually averaged lifetime was 58.1 ± 0.7 years (2σ uncertainty due solely to the spectrum uncertainty). The lifetime is slightly reduced and the uncertainty significantly reduced from that obtained using current UV spectrum recommendations.