Fire protection sprinkler

What is claimed is: 1. A fire protection sprinkler comprising: a body defining an internal passageway extending along a sprinkler axis between an inlet end and an opposite outlet end to define a length of the internal passageway, the internal passageway having a nominal K-factor of at least 25, where the K-factor equals an average flow of water in gallons per minute through the internal passageway divided by a square root of pressure of water fed into the inlet end of the internal passageway in pounds per square inch gauge; a pair of support arms having a first end and a second end, the first end extending from the body; and a deflector centered about the sprinkler axis, the deflector being supported by the second end of the pair of arms so as to he spaced from the outlet end of the internal passageway, the pair of arms extending from the first end to the second end toward the axis so as to form an apex aligned along the axis, the pair of support arms being disposed along a plane bisecting the deflector; a closure assembly mounted in a manner to secure the outlet end of the internal passageway against flow of water in a non-fire condition and to release from the outlet end of the internal passageway, the closure assembly including a closure element and a heat-responsive trigger mounted to releasably secure the closure element at the outlet end of the internal passageway, the heat-responsive trigger having an effective response time index and temperature rating to control a fire in a double-row rack storage arrangement of at least at least one of Class I-IV and Cartoned Unexpanded Group A Plastics commodity as defined by NFPA 13 (2013 Edition) stored at least at a nominal 40-ft storage height beneath a nominal 45 ft high ceiling or higher when the sprinkler is disposed in a grid of identical sprinklers beneath the ceiling, the heat-responsive trigger includes a thermally responsive glass bulb having a first end and a second end disposed on a trigger axis, the trigger axis being substantially coaxial with the sprinkler axis, the glass bulb having a first end defining a first a seat diameter and the second end defining a second seat diameter, a bulb length between the first seat diameter and the second seat diameter is greater than 1.0 inch. 2. The fire protection sprinkler of claim 1 , wherein the bulb length between the first seat diameter and the second seat diameter is greater than the length of the internal passageway, the glass bulb having a maximum wall thickness less than the difference between the bulb length and the passageway length. 3. The fire protection sprinkler of claim 1 , wherein the first seat diameter being less than the second seat diameter and a ratio of the first seat diameter to the second seat diameter being approximately 0.5 to 0.6:1. 4. The fire protection sprinkler of claim 1 , wherein the bulb length being is about 1.5 inches (40 mm), the glass bulb having a wall thickness of about 2 percent of the bulb length and a response time index of about 140 meter 1/2 sec 1/2 (m 1/2 s 1/2 ). 5. The fire protection sprinkler of claim 1 , wherein the bulb length is about 1.5 inches (40 mm). 6. The fire protection sprinkler of claim 1 , wherein the closure element comprises: a body having first surface facing the deflector, the first surface defining a blind bore disposed along the sprinkler axis, the blind bore having an entrance and a terminal end, a second surface disposed within the internal passageway, the second surface having a first portion oblique to the sprinkler axis and a second portion substantially perpendicular to the sprinkler axis, the first portion having a perimeter disposed about the sprinkler axis, the perimeter having a first section disposed between the first surface and the terminal end of the blind bore and a second section between the terminal end of the blind bore and the second surface; a metallic annulus disposed on a support surface between the first surface and second surface of the body, the metallic annulus seals the inlet end of the internal passageway, and a spring having a central portion that surrounds a portion of the body between the first surface and the second surface and opposed ends that contact a respective one of the arms. 7. The fire protection sprinkler of claim 6 , wherein the glass bulb has a nominal temperature rating of 286° F. and a response time index of about 135 meter 1/2 sec 1/2 (m 1/2 s 1/2 ) to about 160 meter 1/2 sec 1/2 (m 1/2 s 1/2 ) with the first end disposed within the blind bore and contiguous with the seat of the blind bore, the second end contiguous with a compression member and a wall thickness of about 2 percent of the bulb length. 8. The fire protection sprinkler of claim 7 , wherein the bulb length is about 1.5 inches (40 mm). 9. The fire protection sprinkler of claim 8 , wherein the first seat diameter being less than the second seat diameter and a ratio of the first seat diameter to the second seat diameter being approximately 0.5 to 0.6:1. 10. The fire protection sprinkler of claim 8 , the glass bulb has a maximum wall thickness between an outside surface and an inside surface and a length between the first seat diameter and the second seat diameter, a ratio of the maximum wall thickness to the length having a ratio ranging from 1:30 and 1:40. 11. A fire protection sprinkler for a dry-pipe sprinkler system, the sprinkler comprising: a body defining an internal passageway extending along a sprinkler axis between an inlet end and an opposite owlet end to define a passageway length, the internal passageway having a nominal K-factor of at least 25.2, where the K-factor equals an average flow of water in gallons per minute through the internal passageway divided by a square root of pressure of water fed into the inlet end of the internal passageway in pounds per square inch gauge; a pair of support arms, each support arm having a first end and a second end, the first end extending from the body; and a deflector centered along the sprinkler axis, the deflector being supported by the second end of the pair of support arms so as to be spaced from the outlet end of the internal passageway, each support arm extending from the first end to the second end toward the axis so as to form an apex aligned along the axis; and a closure assembly mounted in a manner to secure the outlet end of the internal passageway against flow of water in a non-fire condition and to release from the outlet end of the internal passageway the flow of water in response to a fire condition, the closure assembly including a closure element and a heat-responsive trigger to releasahly secure the closure element at the outlet end of the internal passageway, wherein the closure element includes: a body having first surface facing the deflector, the first surface defining a blind bore disposed along the sprinkler axis, the blind bore having an entrance and a terminal end, a second surface disposed within the internal passageway, the second surface having a first portion oblique to the sprinkler axis and a second portion substantially perpendicular to the sprinkler axis, the first portion having a perimeter disposed about the sprinkler axis, the perimeter having a first section disposed between the first surface and the terminal end of the blind bore and a second section between the terminal end of the blind bore and the second surface; a metallic annulus disposed on a support surface between the first surface and second surface of the body, the metallic annulus seals the inlet end of the internal passageway, and a spring having a central portion that surrounds a portion of the body of the closure element between the first surface and the second surface an