Ball Butterfly Check Gate Globe Plug Valves Differences Applications Suitability

Ball Butterfly Check Gate Globe Plug Valves Differences Applications Suitability

ADELAIDE • BRISBANE • PERTH VALVE TYPES There are a large variety of valves and valve configurations to suit all services and conditions; different uses (on/off, control), different fluids (liquid, gas etc; combustible, toxic, corrosive etc) different materials and different pressure and temperature conditions. Valves are for starting or stopping flow, regulating or throttling flow, preventing back flow or relieving and regulating pressure in fluid or gaseous handling applications. Common valve types include: Ball, Butterfly,Check, Diaphragm, Gate, Globe, Knife Gate, Parallel Slide, Pinch, Piston, Plug, Sluice, etc. The following types of valves are used in a variety of applications, these descriptions may provide a basic guideline in the selection of valves. BALL VALVES BUTTERFLY VALVES Because of their excellent operating The butterfly valve derives its name from the characteristics, ball valves are used for the wing-like action of the disc which operates at broadest spectrum of isolation applications and right angles to the flow. It’s main advantage is a are available in a wide range of sizes and seating surface which is not critical. It is materials and are available in full flow and full designed for flow isolation. The disc impinges through conduit. Advantages - quick acting, against a resilient liner to provide bubble straight through flow in either direction, low tightness with low operating torque. Compact pressure drop, bubble tight shut off & operating and with a simple construction, butterfly valves torque, easily actuated. Disadvantages - facilitate easy pipe arrangement. Due to disc, temperature limitations on seating material, long they have slightly reduced flow characteristics. “relative” face to face dimension. Advantages - quick acting, good regulating characteristics, compact & light, low pressure isolation. Butterfly valves are simple, reliable and range in size from 40mm to 1000mm and GLOBE VALVES beyond. They can be controlled by a notched Globe/Stop Valves: - The flow path lever, handwheel as well as by pneumatic or through globe valves follows a changing course, electric actuator. A shaft turns a disc 90º within a thereby causing increased resistance to flow pipe. The disc angle within the pipe can provide and considerable pressure drop. Because of the a restriction varying from drip-tight through to seating arrangements, globe valves are the almost full flow (except very small sizes). most suitable for throttling flow, however avoid extremely close throttling when the repeatable pressure drop exceeds 20%. Close throttling creates excess noise, vibration and possible CHECK VALVES damage to valves and piping. Consult us for Sometimes referred to as a non-return valve, the special service valve solutions. The valve is check valve prevents back-flow in the piping by named after is globular body. Compared to gate constantly keeping fluid flowing in one direction. valves, globe valves are designed to open and Check valves operate automatically. Some close more quickly. Their flow characteristics piston/disc check valves are spring loaded for can be changed by re-configuring their discs. fast operation, (minimum cracking pressure Advantages - best shut off (not drip tight above should be specified). Vertical downwards flow 50NB) & regulating. Disadvantages - high requires a spring loaded check valve. pressure drop (head loss), unidirectional. Swing Check Valves: - Swing & Wafer Stop Check Valves (SDNR): - Stop checks cease reverse flow with a flap that check valves are essentially the same as Globe swings onto a seat. Use swing checks only for valves, except there is no mechanical forward flow that is horizontal or vertical upward. connection between the stem and the disc. Piston Check Valves: - Piston & Spring They provide a combination Stop valve and a checks cease reverse flow with a spring loaded Piston check valve in one valve. However, they plunger. are not designed for throttling. They are used in steam boiler outlet piping when two or more Ball Check Valves: - Ball checks have a boilers are connected to a common header. ball that slides into a hole as forward flow slows. Valves must be installed with pressure under Consider a ball check for semi-solids such as the disc, and when the stem is raised, only pulp or effluent. boiler pressure can raise the disc whenever Tilting Disc Check Valves: - Tilting Disc boiler pressure exceeds header pressure. They check valves are similar to Swing check valves prevent backflow from the header to boiler. but in most installations, slamming is minimised upon reversal of flow so noise and vibration are reduced. 70-78 Stanbel Road Salisbury Plain, South Australia 5109 www.australianpipelinevalve.com.au Telephone +61 (0)8 8285 0033 Fax +61 (0)8 8285 0044 [email protected] GATE VALVES Parallel Slide Gate Valves: - Popular in Wedge Gate Valves: - Commonly used in steam applications as the energised disc design industrial piping for stop or isolating – to turn on handles thermal expansion without sticking like and shut off the flow as opposed to regulating wedge gate valves. Another advantage is lower flow. Gate valves are named from the gate-like torque then wedge gate valves especially in disc which operates at a right angle to the path venturi (Ferranti) reduced bore configuration. of the flow. Gate valves are general service Parallel slide valves consist of two parallel gates valves that can be made in a broad spectrum of that are energised against the seat at all times sizes using a variety of different materials. by springs or a wedging spreader bar between Wedge gate valves are metal seated but are the two gates. No mechanical stress is exterted also available with resilient seat insert if drip bewteen the discs, and the valve is not tight shut off is required. They can meet the subjected to dangerous strains in opening and demands of a wide range of pressure and closing. This design of valve maintains fluid temperature conditions and is available in full tightness without the aid of wedging action. port. Advantages - low pressure drop, straight These valves are used for saturated and super through flow either direction. Disadvantages - heated steam. slow acting, bulky. Not drip tight shut off (over Pipeline Slab Gate Valves: - Available 150NB). Do not partially open as this will cause in parallel solid slab and expanding 2 piece damage to seat/disc. wedging slab. Both styles protect the seat area Knife Gate Valves: - Useful for many from the flow in all operating positions. These applications in larger sized pipework (50mm valves have a full through conduit configuration up). Unlike traditional gate valves, they are able with a hole in the slab. Slab style gate valves to throttle (at lower pressures) depending on have seats that are spring energised. The line media and degree of opening. Metal seated expanding slab features two opposed sliding knife gate valves are not leak tight shut off. v-shape segments that maintain pressure Some knife gate valves have a resilient seat in against the seats. These valves are for API6D order to ensure they close drip-tight. Available in pipeline applications but are also used for API6A v-port, o-port and lined they are ideally suited wellhead valves. All these valves are made in for the control of effluent, slurries, waste metal to metal and soft seat configuration. products, semi solids, pulp, bulk powders. Most knife gate valves are designed for single flow PLUG VALVES direction. Plug valves are valves with cylindrical or conically-tapered “plugs” which can be rotated inside the valve body to control flow through the valve. The plugs in plug valves have one or more hollow passageways going sideways through the plug, so that fluid can flow through the plug when the valve is open. Plug valves are simple and often economical. Characteristics of Valve by Type Item Gate Valve Globe Valve Ball Valve Butterfly Valve Disc actuation Vertical Vertical Rotary Rotary Lever handle Manual mode of Round handle Round handle Round handle Lever handle operation Gear operated Gear operated Gear operated Gear operated Automatic mode of Pneumatic/ Hydraulic Pneumatic/ Hydraulic Pneumatic/ Hydraulic Pneumatic/ Hydraulic operation Electric actuator Electric actuator Electric actuator Electric actuator Automatic on - off Automatic on - off Application On - off On - off control Can be controlled Can be controlled Operating temperature range Wide Wide Narrow Narrower Operating pressure range Wide Wide Wide Narrower Face-to-face dimension Long Longest Long Short Weight Heavy Heavy Heavy Light Common Metal Types used in Valve Manufacture The following is a general review of common valve materials used in general industrial, commercial and process valve construction. Aluminum - A non-ferrous metal, very lightweight, approximately one-third the weight of steel. Aluminum exhibits excellent atmospheric corrosion resistance, but can be very reactive with other metals. In valves, aluminum is mainly used as for exterior components such as a hand wheels or identification tags. Copper - Among the most important properties of wrought copper materials is their thermal and electrical conductivity, corrosion resistance, wear resistance, and ductility. Wrought copper performs well in high temperature applications and is easily joined by soldering or brazing. Wrought copper is generally only used for fittings. Bronze - One of the first alloys developed in the Bronze Age is generally accepted as the industry standard for pressure rated bronze valves and fittings. Bronze has a higher strength than pure copper, is easily cast, has improved machinability, and is very easily joined by soldering or brazing. Bronze is very resistant to pitting corrosion, with general resistance to a wide range of chemicals. www.australianpipelinevalve.com.au Silicone Bronze - Has the ductility of copper but much more strength. Silicon bronze has equal or greater corrosion resistance to that of copper. Commonly used as a stem material in pressure-rated valves, silicon bronze has greater resistance to stress corrosion cracking than common brasses. Aluminum Bronze - The most widely accepted disc material used in butterfly valves, aluminum bronze is heat treatable and has the strength of steel.

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