Description
What is Tank Blanketing?
Gas blanketing systems are used to prevent the escape of liquid vapors into the atmosphere or to prevent moisture from entering a tank and contaminating its contents.
A tank blanketing valve maintains an inert gas blanket (usually nitrogen or carbon-dioxide) in the vapor space of a pressure-tight liquid storage vessel.
This process is accomplished by utilizing a steady high-pressure gas source and the Shand & Jurs 94270 “VAPOR GUARD” so that flow is limited to a constant value when the tank pressure drops below the set point.
The valve limits the minimum pressure of the gas blanketing to cope with outdoor temperature reductions or pump outs without in-breathing air.
When pressure inside the vessel exceeds the valves set point the main valve shuts off. If pressure increases due to outdoor thermal heating, or product pump-ins, the separate breather valve opens and relieves the excess pressure.
One advantage of using the Shand & Jurs “VAPOR-GUARD” is that only one valve is needed to maintain precise blanketing regulation while conventional recovery systems require several regulators to achieve the same results.
How does it work?
The Shand & Jurs 94270’s compact design allows the valve to be mounted directly on the tank which in turn not only reduces the number of necessary connections, but also possible leak points.
Models are available with female thread connections and welded or threaded-on flanges.
The 94270 has a balanced, piston operated, main valve so that the set point pressure is virtually unchanged at any given inlet pressure within the specified operating range.
The “VAPOR GUARD” has a modulating type action valve that opens and closes automatically, maintaining a closely controlled blanket pressure and gas flow.
The modulating action simplifies the valve design thus increasing reliability and reducing maintenance costs.
The “VAPOR GUARD” operates in the closed position whenever the tank pressure is satisfied or exceeds the set pressure.
Whenever the sensed pressure decreases, the set pressure spring and diaphragm assembly causes a downward force such that the main valve will open proportionately to control pressure and limit capacity.
Features- Lower maintenance cost due to fewer parts
- Compact/light weight design occupies less space with less stress to tank
- Eliminates the effects of valve leakage and waste of blanketing gas
- One valve system
- Horizontal or vertical mounting
- Set pressure is the only adjustment
- 316 SS trim and seats standard
- Pilot filter standard on 1” and 2’’ model
- Optional filter, check valve, pressure gauge
Specifications
Specifications
Brand
Body
- 304 Stainless Steel or 316 Stainless Steel
Diaphragm Housing
- Painted Carbon Steel or 316 Stainless Steel
Trim & Seats
- 316 Stainless Steel
Diaphragm
- EDPM (Ethylene Propylene Diene Monomer), FEP (Fluorinated Ethylene Propylene), FKM (Fluoroelastomer), NBR (Nitrile-Butadiene)
Seals
- EDPM (Ethylene Propylene Diene Monomer), FKM (Fluoroelastomer), FFKM (Perfluoroelastomer), NBR (Nitrile-Butadiene)
Temperature
- -40° F to 250° F (NBR and EPDM) +20° F to 350° F (FKM and FFKM)
Set Pressure (Opening)
- 1/2” wc to 15.0 psig
Minimum Inlet Pressure
- 1/2” Size: 20 psig 1” & 2” Size: 30 psig
Maximum Inlet Pressure
- 2” Size: 100 psig - 100 % Flow Port 1” Size: 200 psig - 100 % Flow Port 1/2” Size: 200 psig - 100 % Flow Port 125 psig - 150 % Flow Port 100 psig - 200 % Flow Port
Maximum Pressure at Sense Port
- 3.0 psig (20.0 psig for set point > 3.0 psig)
Connections
- FNPT Thread Flanged ANSI 150 lb RF Flanged ANSI 150 lb Weld Neck RF Flanged ANSI 300 lb Weld Neck RF Flanged EN 1092-1 PN 16 RF