Exploring the Potential of HFC-125a Hydrate for Innovative Fire Suppression: A Gas Hydrate Technology Approach
Ji-Hoon Han, Jinwoo Lee, Jinwoo Lee, Sai Kiran Burla, Sungwook Chung, Ju Dong Lee, Ju Dong Lee
Abstract
This study explores the applicability of gas hydrate technology as an innovative approach to fire suppression, focusing on the novel use of HFC-125a hydrate as a superior retardant for class B liquid fires. Two sequential steps were performed, involving the novel formation and pelletization of HFC-125a hydrate with an emphasis on the significance of subcooling on formation kinetics. We achieved a 15% hydrate conversion in 9 min and 70% within 19 min for pelletization. Raman spectra revealed HFC-125a encapsulation in large 5 12 6 4 hydrate cages. Flame suppression tests, conducted in small pool fire (lab-scale) and pool fire (practical) setups, demonstrated the exceptional fire suppression capabilities of HFC-125a hydrate powder (0.1–0.5 mm) compared to conventional NH 4 H 2 PO 4 and ice powders. Notably, the HFC-125a hydrate powder successfully prevented reignition, unlike NH 4 H 2 PO 4 . In the pool fire system, the HFC-125a hydrate powder outperformed a commercialized aerosol. A novel gun-type sprayer facilitated the application of hydrated powder on a fire flame, showcasing practical feasibility. The mechanism involves the endothermic nature of the hydrate absorbing heat and releasing encapsulated HFC-125a gas upon disintegration. This gas retorts to remove oxygen, creating an uninhabitable atmosphere for combustion and effectively preventing reignition. Overall, this study establishes the feasibility of gas hydrate-based technology, specifically the use of novel HFC-125a hydrates in powder form, as a promising fire suppression agent. The findings provide insights for the future development of hydrate-based fire extinguishment methods.