Study on the effect of space tightness on the inerting effect of liquid CO in pottery jar liquor warehouses.

To investigate the effect of space tightness on inerting of liquid CO. Pottery jar liquor warehouse was selected as the research subject, numerical simulation was utilized to study the spatial inerting and CO migration and distribution under different space tightness degrees and injection flow rates. The results revealed that after injection into the space, CO distributed like an "umbrella", the CO protective layer undergoes a dynamic process of concentration increase and thickness enhancement, achieving upward accumulation and migration of the inert medium protective layer. The space was divided into direct inerting zone, CO accumulation zone and accumulation zone, with an effective inerting diameter of approximately 2 m for the direct inerting zone. When the fire extinguishing system is activated in the fire source space for 60 s, the O concentration at Z = 0.3 m decreases to less than 10%, and the CO inerting rate exceeds 98%. The space inerting effect increased with the injection flow and space tightness, whereas the effective inerting rate decreased with the space height and injection time. After 60 s of injection, the leakage reached the maximum, about 1.0 ~ 1.2 kg/s. It could improve liquid CO utilization by reducing the injection flow rate or enhancing space tightness. Based on this, a design concept of liquid CO intelligent control fire extinguishing system is proposed.