Density/Area Curves Concept

Density/Area Curves Concept 

The density/area curves have traditionally provided some flexibility in system pipe sizing. Under provisions of NFPA 13, meeting any point on the appropriate curve is acceptable. This permits the use of higher densities over smaller areas or lower densities over larger areas.  Higher densities with smaller areas will generally result in larger branch-line piping but lower main sizes and lower overall water supply requirements. For this reason, a high-density, small-area point is often selected as the most economical.

minimum orifice sizes were specified for spray sprinklers protecting general storage, rack storage, rubber tire storage, roll paper storage, and baled cotton storage. For design densities of 0.34 gpm/ft2 (13.9 mm/min) or less, standard response sprinklers with a nominal orifice co efficient of K = 8.0 (Km = 115) or larger must be used. For design densities exceeding 0.34 gpm/ft2 (13.9 mm/min), standard- response sprinklers with a nominal orifice coefficient of K = 11.2 (Km = 160) or larger and that are specifically listed for storage applications must be used.

Convective Heat Flow in Fires (Sprinkler operation )

Convective Heat Flow in Fires

Heat is released from a fire in several forms: radiation, conduction, and convection. It has been determined that convective heat transfer is most important in activating sprinklers.

Convective heat transfer involves heat transfer through a circulating medium, which, in the case of fire sprinklers, is the room air .The air heated by the fire rises in a plume entraining other room air as it rises When the plume hits the ceiling, it generally splits to produce a ceiling gas jet The thickness  of this ceiling jet flow is approximately 5 to 12 percent of the height of the ceiling above the fire source, with the maximum temperature and velocity occurring 1 percent of the distance from the ceiling to the fire source. The heat-sensing elements of sprinklers within this ceiling jet are then heated by conduction of the heat from the air.