The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

Body Size: 30, Thread: Rc, Port Size: 02 (1/4), Option: w/o Bracket; w/o Auto Drain, Semi-Standard 1: 6 (Nylon Bowl), Semi-Standard 2: W (Drain Cock w/Barb Fitting)

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.

Body Size: 30, Thread: N (NPT), Port: 03 (3/8), Option: Standard, Attachment: Standard, Semi-Standard 1: 6 (Nylon Bowl), Semi-Standard 2: Z (Name Plate, Caution Plate for Bowl, and Pressure Gauge: psi, °F)

The cushion volume has been elevated permitting about 30% more allowable kinetic energy absorption. The port and captive cushion adjustment valve are located on the same side of cap for heightened access.