Catalina Yellow Tank with Sherwood Pro Valve
Catalina Aluminium Scuba Tank with Sherwood Pro Valve¬†
- Nitrox Ready Up to 40%
- Industry Standard Cylinder
- Working Pressure: 3000 psi (200 bar)
- Convertible Pro Valve Included
This cylinder is used by more divers dive operators and retail dive stores than any other type of cylinder available. The Pro Valve is one of the highest flow cylinder valves available today and is also a convertible valve. Whether you dive Yoke or DIN regulators this valve will work for both. Valve has easily removed 200 bar (3000 psi) DIN insert to convert the valve for use with DIN regulators. Valve has a heavy duty deign with a smooth operating mechanism and multi-ported burst disc plug for added safety.
Aluminum cylinders unlike steel cylinders dont rust, they oxidize. The oxidization of aluminum forms a protective coat that hinders the continuation of corrosion making aluminum cylinders less likely to be condemned due to excessive corrosion. When shipped the tanks valves will be removed and the tank will require re-inspection before being filled. Cylinder measures (H x Dia.) 28.8" x 7.25" (73.2cm x 18.4cm), weighs 31.6 lbs. (14.33 kg) and is -1.8 lbs. (-816.5 g) when empty.¬†
Note:¬†All Catalina cylinders are nitrox ready and meet certificated specifications of the US Department of Transportation (DOT) with DOT-3AL specification and Transport Canada Safety and Security (TC) with TC-3ALM specifications. Purchasers should check with other country requirements to know if the cylinders are certified for use in that country.
Explanation on the Back Pressure Relief Feature
In course of using a scuba valve, there are times where excess air may have accumulated behind the face o-ring during normal use. When this air is not vented properly from the o-ring groove it can cause the o-ring to dislodge during regulator dismounting.
Sherwood valves feature an intentional stamping mark in the machined inner ring of the o-ring gland. This mark prevents the metal ring from sealing against the 1st Stage regulator and trapping pressurized gas in the o-ring groove. If this gas is not properly vented, it can force the o-ring to dislodge when the 1st stage is removed from the valve. The stamping mark creates a path to vent any trapped gas before the 1st stage is removed.