The preliminary results are presented for the last flight of the Spacecraft Fire Experiment (Saffire VI) which was conducted on an orbiting Cygnus spacecraft. These experiments directly address the risks associated with our understanding of spacecraft fire behavior at practical length scales and geometries. The lack of this experimental data has forced spacecraft designers to base their designs and safety precautions on 1-g understanding of flame spread, flame self-extinguishment, fire detection, and suppression. However, low-gravity combustion research including the prior Saffire flights have demonstrated substantial differences in flame behavior in reduced gravity. The Saffire experiment was developed by an international team of investigators with the goal of addressing open issues in spacecraft fire safety. NASA's Spacecraft Fire Safety Demonstration Project was designed with the goal of conducting a series of large-scale experiments in spacecraft environments that represent practical spacecraft fires. The final flight examined concurrent spread over large samples (all 41 cm wide) including a thin sheet of flammable fuel (cotton/fiberglass 50 cm long); 2-sided spread over 1 cm thick polymethyl methacrylate (18 cm long) ; 1-sided spread over 0.5 cm thick (18 cm long); and Nomex fabric (7 cm long). These experiments were performed on two separate unmanned ISS re-supply spacecraft after they had delivered their cargo and had begun their return journeys to Earth (ultimately destructive reentry). Preliminary flame spread rates and flammability assessments are presented for the conditions studied with comparison to prior data. Temperature and carbon dioxide sensors were placed throughout the vehicle which will be compared to a vehicle transport model to develop the ability to predict the impact of a fire in a spacecraft.
Urban et al. (Sun,) studied this question.
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