Abstract
Essential infrastructure safety calls for CO₂ fireplace suppression structures, specifically in settings with delicate electronic gadget wherein water-based totally suppression systems are irrelevant. those structures provide clean, residue-free, non-conductive fire protection via displacing oxygen to prevent combustion. however, due to the fact they rely on electronically controlled activation mechanisms, they’re prone to electrical faults, factor screw ups, and electricity outages. A automatically actuated pass valve has been used as a fail-secure approach to conquer those troubles. The layout, operation, and integration of the pass valve into contemporary CO₂ systems are tested on this paper. by means of bodily fending off automatic controls, the skip valve lets in manual CO₂ release, ensuring fireplace suppression even in the occasion of a total machine failure. The valve’s capacity to make sure continuous fireplace safety changed into confirmed thru experimentation. as a way to improve the resilience, dependability, and protection of CO2 fireplace suppression systems, the take a look at emphasizes the need of redundancy in fireplace protection layout and offers best practices for the usage and maintenance of pass valves.
KEYWORDS
CO₂ Fire Suppression Systems, Critical Infrastructure Protection, Electronic Equipment Safety, Non-Conductive Fire Suppression, Oxygen Displacement, Mechanical Bypass Valve, Manual CO₂ Release, System Redundancy.
Vishal Tiwari1*, Nishant Singh Kushwah2
1,2Department of Fire Technology and Safety Engineering, Vikrant University, Gwalior-474005, M.P., India