Graphene Oxide-Enhanced Aerosol Forming Composites: A Study for Fire Extinguishing Applications
DOI:
https://doi.org/10.56042/ijct.v31i1.4596Keywords:
Aerosol forming compositions, Burn rate, Combustion, Fire extinguishment, Graphene oxideAbstract
Condensed aerosol-based fire extinguishing system (CAFES) has emerged as the most proficient fire extinguishing system since the implementation of Montreal protocol 1987. Aerosol forming composite (AFC) is the key constituent of CAFES. For the first time, graphene oxide-based AFCs have been prepared and characterized for use in extinguishing fires. Catalytic activity of bulk graphite, graphite oxide & graphene oxide (1, 3 & 5 %, w/w) on combustion characteristics of AFC was examined by incorporating them in the base AFC. Graphene additives were synthesized and characterized using instrumental techniques such as XRD, FTIR, Raman, SEM and TEM. AFCs with catalysts were also assessed for performance using parameters such as combustion efficiency, minimum fire extinguishing concentration (MEC), burn rate, combustion temperatures and activation energies. Maximum reduction in combustion temperature from 455 to 409 oC was observed with 5 % graphene oxide containing AFC. Addition of 1 % graphene oxide to base AFC remarkably augmented the performance of AFC by enhancing the burn rate by 12.89 %. Prepared high burn rate AFC is under further investigations for potential use in cutting-edge aerosol-based firefighting systems.
