Process Control Valves and Instrumentation Products > Automated Diaphragm Valves > Metal Glass Diaphragm Valves > Flanged End Automated Cast Iron Diaphragm Valves (Glass Lining) > Item # 3"/07-1-H/A  


Item # 3"/07-1-H/A, Flanged End Automated Cast Iron Diaphragm Valves (Glass Lining)


Wide Selection — available in a wide variety of body materials, linings and end connections. By utilizing such highly resistant linings as Saran, Polypropylene, Kynar, Tefzel, Glass, Rubber, etc., virtually any chemical service within the pressure/temperature limits of the valve can be handled safely and economically.

No Stem Leakage — since the diaphragm isolates the fluid stream there is no need for a packing gland — no atmospheric contamination, no leakage or waste, no expensive maintenance of stem, seats or stuffing box.

Bubble-Tight Shut Off — results when the downward thrust of the stem and compressor assembly molds the flexible diaphragm against the weir. The diaphragm will accommodate itself to rust, scale, slurry, or fibrous material.

Streamline Flow — with minimum pressure drop because of the absence of grooves, pockets or sharp changes in direction of flow.

Cost Saving — simple in-line maintenance. In less time than it takes to remove and replace a conventional valve, a new body diaphragm can be installed. Thus providing essentially a brand new valve at a tiny faction of the cost of a new or repaired conventional valve — all without removing the valve body from the line.

Flow Control — the automated diaphragm valve provides an excellent means of handling the changing flow requirements in most process installations. By the addition of a positioner to the actuator, even more precise control can be achieved, especially in the handling of slurries, or viscous and fibrous materials.

Body Materials — available in cast iron, ductile iron, carbon steel, stainless steel, Alloy-20, aluminum and bronze






Specifications  · Diaphragm Selection  · Standard Actuator Features

Specifications

Body Material

Cast Iron

Temperature Range

-30 to 250 ºF

Typical Applications

Acids, Caustics and Oil

Lining Options

Glass

Material/Lining Classification

Metal Glass

End Connection

End to End Dimension A

10 1/8 in

Valve Size [Fraction]

3 in

Valve Size [Decimal]

3.00 in
76.20
mm

Diaphragm Control Valve Options

730-RV, Pilot Operated Controller Option

Line Pressure Conditions1

0% P.D
100% P.D.

Services

View
Acetaldehyde
Acetic Acid (Glacial)

Acetic Acid (to 60%)

Aluminum Chloride

Aluminum Nitrate

Aluminum Sulfate

Ammonium Phosphate

Bleached Pulps (8%)

Brine (Chlorinated)

Calcium Hypoclorite

Copper Chloride

Copper Plating

Diatomaceous Earth

Ethylene Glycol

Ferric Chloride

Ferric Nitrate

Formaldehyde - 40%

Formic Acid - 85%

Hydrochloric Acid

Hydrogen Peroxide (30%)

Latex

Muriatic Acid

Nitric Acid - to 20%

Paint

Paper Pulp - Chlorin.

Picric Acid

Polyvinyl Chloride

Potassium Nitrate

Propylene Glycol

Salt Brine

Sea Water

Sodium Chloride

Sodium Hypochloride

Sodium Perchlorate

Sodium Peroxide

Sulfur Dioxide Solution

Sulfur Dioxide Wet Gas

Sulfuric Acid - to 50%

Sulfuric Acid 50 to 79%

Vacuum below 25 mm, Hg.

Vacuum to 25 mm. Hg.

Water - Acid

Water - River

Zinc Chloride

Zinc Sulfate

Weight

49 lb
1 100% P.D. means that downstream pressure falls to 0 psig.

0% P.D. means that downstream pressure remains at, or returns to essentially the same as the upstream pressure.


Diaphragm Selection

Diaphragm Material

Hypalon

Diaphragm Material Description

Elastomeric - built like a tire - especially compounded materials - ruggedly reinforced with fabric plies and designed to take a great deal of physical abuse. The sealing bead provides a greater sealing ability by localizing closing forces for bubble-tight shut-off.


Standard Actuator Features

Actuator Size Number

0, Actuator Size "0"
1, Actuator Size "1"
2, Actuator Size "2"
2A, Actuator Size "2A"
3, Actuator Size "3"
4, Actuator Size "4"
5, Actuator Size "5"

Action of Actuator1

1 The choice of actuator size is determined by the line pressure through the value and the available operating air pressure. Some operating conditions call for substantial line pressure downstream when the valve closes.

After the valve closes, if the downstream pressure is less that 30 % of the upstream pressure - this condition is 100% Δ P. If the downstream pressure is 30% or more of the upstream pressure - the condition is 0% Δ P.