Blow-out limits of nonpremixed turbulent jet flames in quiescent air at sub-atmospheric pressures (50-100 kPa) were studied experimentally using propane fuel with nozzle diameters ranging 0.8-4 mm. Results showed that the fuel jet velocity at blow-out limit increased with increasing ambient pressure and nozzle diameter. A Damkohler (Da) number based model was adopted, defined as the ratio of characteristic mixing time and characteristic reaction time, to include the effect of pressure considering the variations in laminar burning velocity and thermal diffusivity with pressure. The critical lift-off height at blow-out, representing a characteristic length scale for mixing, had a linear relationship with the theoretically predicted stoichiometric location along the jet axis, which had a weak dependence on ambient pressure. The characteristic mixing time (critical lift-off height divided by jet velocity) adjusted to the characteristic reaction time such that the critical Damkohler at blow-out conditions maintained a constant value when varying the ambient pressure. (C) 2016 The Combustion Institute. Published by Elsevier Inc. All rights reserved.