A gate valve is a shut-off device to open and close the flow of the fluid conveyed by the pipeline. A gate valve is a bi-directional valve, as the flow direction is not relevant (differently from check valves that should be installed in a specific direction only). The installation of a gate valve creates a modest pressure drop in the pipeline, lower than globe valves. Gate valves have forged bodies for bore sizes below 2 inches, and cast bodies for larger sizes.

Gate valve benefits:

  • Easy to maintain and disassemble
  • Optimal as a shut off valve
  • Bidirectional
  • Low cost
  • Can be used with slurries and viscous liquids
  • Available in large sizes
  • Inherently fire-safe (when used with a metal sheet)

Gate valve disadvantages:

  • Slow open and close time
  • Low-pressure limitations
  • Erosion of the seat and disk can occur
  • Poor throttling characteristics
  •  Difficult to repair

Understanding Gate Valve (source: Milwaukee Valve)

 

GATE VALVES VS OTHER VALVES

GATE VALVE VS BALL VALVE

What is the difference between a ball valve and a gate valve?

Ball and gate valves perform the same function, i.e. they are suited to shut-off the fluid flow in a pipeline. However, there are a few differences between these two types of valves:

  • Ball valves feature a stem and a ball, which turns horizontally to shut off the passageway of the fluid. Gate valves instead close the passageway with the combined action of a wedge (which is a rectangular or round  “gate”) and a seat.
  • Ball valves are suited to applications that require a tight shut-off, without pressure drop (gate valves, instead, create a small pressure drop).
  • Gate valves belong to the family of “on-off” valves, ball valves to the family of “quarter-turn” valves
  • Ball valves feature very tight seals and are way less prone to leaks than gate valves
  • Ball valves have a longer life cycle and a lower failure rate than gate valves
  • Ball valves are easier to use than gate valves but tend to be more expensive

 

GATE VS GLOBE VALVE

What is the difference between a gate and a globe valve?

A gate valve cannot be used to modulate and regulate the flow of the fluid, as its high speed would damage the wedge and the seats in case of partial opening or closing of the valve, and they cannot be used for quick opening and close operations either.

Fluid throttling and regulation, and repeated open/close operations shall be executed using globe valves instead of gate valves.

 

GATE VALVE VS PRESSURE SEAL GATE VALVE

Pressure seal valves are special types of gate valves uses for high-pressure applications (they have a special configuration of the pressure containing parts, as the bonnet). The most common types of gate valves for high-pressure application are the flexible wedge and the parallel slide pressure seal gate valve. They are generally available with cast or forged bodies, in dimensions from 2 to 24 inches and pressure rating from 600# to 4500#, with socket weld or buttweld, ends to ensure tight flanged joint connections (but flanged ends are also possible).

 

pressure seal gate valve

 

GATE VALVE DIAGRAM

GENERAL ASSEMBLY DRAWING

The drawing below shows a standard assembly drawing for a gate valve. Many design variations are possible, depending on the gate valve parts configuration:

  • body material construction: forged or cast
  • bonnet design and connection: can be standard or pressure seal (high-pressure gate valves), bolted/welded bonnet, etc.
  • ends connection: gate valves are available with multiple valves ends designs (socket weld and threaded for forged gate valves and butt weld for cast body gate valves)
  • wedge type (solid/flexible/split/parallel slide): see details below in this article
  • stem type (rising/ non-rising): see details below
  • manufacturing norm: API vs EN gate valves have slightly different designs
  • type of valve operation: manual, gear or pneumatic/hydraulic/electric actuation
  • etc.

 

Gate valve parts

Gate valve diagram showing the key gate valve parts.

The most important standard applicable to gate valves are:

 

GATE VALVE WEDGE TYPES

The image below shows how the gate valve wedge opens and closes the flow of the fluid by application of a vertical movement (which can be manual or operated by an actuator).

Gate valves open and close function

 

 

 

 

 

 

The wedge is positioned between two parallel (or oblique) seats which are perpendicular to the flow. The fluid flows horizontally through gate valves and is not subject to pressure drops. Wedges can be of different types:

  • solid-wedge” (in this case, the wedge is manufactured with a solid piece of steel)
  • flexible-wedge” (in this case the disc features cuts around its perimeter to enhance the ability of the valve to correct changes in the angle between the seats)
  • split-wedge” (two pieces construction disc, to enforce self-alignment of the wedge on the seats)
  • parallel-slide wedge

Wedge types for gate valves

 

GATE VALVE STEM TYPES

A gate valve may have a rising stem (in this case, the stem rises above the handwheel if the valve is opened) or a non-rising stem (the stem doesn’t move above the valve when it is opened).

 

Rising and non rising stem of gate valves

 

OS&Y GATE VALVE / IS&Y GATE VALVE

It is very frequent to see the term “OS&Y” associated with gate valves.

This term means that when the handle of a gate valve is rotated to open or close the valve, it directly raises and lowers the disc by interacting with the stem of the valve. In an “os&y gate valve”, the stem of the valve itself raises and lowers outside the body of the valve in a very visible way, while the handle remains in a fixed position. When the stem raises, the disc inside the body of the valve rises from the seat letting the fluid flow through the valve (valve in open position). Therefore with an OS&Y gate valve, the actual position of a valve (closed or open) is always evident to the operators.

Differently, the valve position is not immediately visible for “is&y gate valves” (inside screw and yoke), as the stem of the valve does not raise or lowers outside the valve when the handle is rotated.

 

 

GATE VALVE SYMBOL IN P&ID

A gate valve symbol is represented in the following image.

Gate Valve Symbol in P&ID

GATE VALVE MATERIALS

GATE VALVE BODY MATERIALS

The body of gate valves below 2 inches is generally made of forged steel (the most common body material grades are ASTM A105 for high-temperature service, ASTM A350 for low-temperature service and, ASTM A182 F304/F316 for corrosive service).
The bodies of gate valves of bore sizes above 2 inches are, instead, made of cast steel (the main cast grades are ASTM A216 WCB for high-temperature service, ASTM A351 for low-temperature conditions and ASTM A351 CF8 and CF8M – i.e. stainless steel 304 and 316 gate valves).
The API specifications for forged and cast gate valves are:
  • API 600 (for carbon and alloy steel gate valves with cast bodies)
  • API 603 (for stainless steel gate valves with cast bodies)
  • API 6D (gate valves for pipelines, types expanding gate and slab gate)
  • API 602 (forged body gate valves)

Gate valves are tested according to API 598.

 

GATE VALVE TRIM MATERIALS

The removable and replaceable parts of the valve are collectively defined as “trim” (for a gate valve: seat, disc, backseat and, stem). The API 600 specification foresees a number of standard trim combinations, as illustrated below

API TRIM # BASE MATERIAL MATERIAL FOR SEAT MATERIAL FOR DISC BACKSEAT
MATERIAL
MATERIAL FOR STEM
1 410 410 410 410 410
2 304 304 304 304 304
3 F310 310 310 310 310
4 Hard 410 Hard 410 410 410 410
5 Hardfaced Stellite Stellite 410 410
5A Hardfaced Ni-Cr Ni-Cr 410 410
6 410 and Cu-Ni Cu-Ni Cu-Ni 410 410
7 410 and Hard 410 Hard 410 Hard 410 410 410
8 410 and Hardfaced Stellite 410 410 410
8A 410 and Hardfaced Ni-Cr 410 410 410
9 Monel Monel Monel Monel Monel
10 316 316 316 316 316
11 Monel Stellite Monel Monel Monel
12 316 and Hardfaced Stellite 316 316 316
13 Alloy 20 Alloy 20 Alloy 20 Alloy 20 Alloy 20
14 Alloy 20 and Hardfaced Stellite Alloy 20 Alloy 20 Alloy 20
15 304 and Hardfaced Stellite Stellite 304 304
16 316 and Hardfaced Stellite Stellite 316 316
17 347 and Hardfaced Stellite Stellite 347 347
18 Alloy 20 and Hardfaced Stellite Stellite Alloy 20 Alloy 20

 

GATE VALVE MATERIAL SELECTION

TRIM RECOMMENDED SERVICE
13% Cr, Type 410 Stainless Steel For oil and oil vapors and general services with heat treated seats and wedges.
13% Cr, Type 410 plus Hardfacing Universal trim for general service requiring long service life up to 1100°F (593°C).*
Type 316 Stainless For liquids and gases which are corrosive to 410 Stainless Steel, up to 1000°F (537°C).*
Monel For corrosive service to 842°F (450°C) such as acids, alkalies, salt solutions, etc.
Alloy 20 For corrosive service such as hot acids -49°F to 608oF (-45°C to 320°C).
NACE Specially treated 316 or 410 trim combined optionally with B7M Bolts and
2HM nuts to meet NACE MR-01-75 requirements.
Full Stellite Full hard faced trim, suitable for abrasive & severe services up to 1200°F (650°C).

GATE VALVE DIMENSION

The tables show the dimensions and weights of API 600 gate valves (bolted bonnet / rising stem)

Gate valve sizes

 

GATE VALVE DIMENSION CLASS 150

Dimensions in inches (millimeters)

Sizes L L1 (BW) H (Open) W
2″ 7 (180) 8-1/2 (216) 14-1/2 (368) 8 (200)
2-1/2″ 7-1/2 (190) 9-1/2 (241) 17 (432) 8 (200)
3″ 8 (200) 11-1/8 (283) 18 (457) 8-7/8 (225)
4″ 9 (230) 12 (305) 22 (559) 11 (279)
5″ 10 (254) 15 (381) 26 (660) 12-3/4 (325)
6″ 10-1/2 (266) 15-7/8 (403) 30 (762) 14 (356)
8″ 11-1/2 (290) 16-1/2 (420) 38-1/2 (978) 14 (356)
10″ 13 (330) 18 (457) 46 (1168) 18 (457)
12″ 14 (356) 19 (502) 55-1/4 (1403) 20 (508)
14″ 15 (381) 22 (559) 60 (1524) 21-1/2 (546)
16″ 16 (407) 24 (610) 74-7/8 (1902) 24 (610)
18″ 17 (432) 26 (660) 79 (2007) 27 (686)
20″ 18 (457) 28 (711) 87-1/2 (2223) 28 (711)
24″ 20 (508) 32 (813) 105 (2667) 31-1/2 (800)
30″ 24 (610) 38 (965) 130 (3302) 43 (1092)
36″ 28 (711) 44 (1118) 162 (4115) 51 (1295)
GEAR OPERATOR RECOMMENDED FOR SIZE 10″ AND ABOVE

 

GATE VALVE DIMENSION CLASS 300

Dimensions in inches (millimeters)

SIZES L/L1 H (OPEN) W
2″ 8-1/2 (216) 16 (407) 7-7/8 (200)
2-1/2″ 9-1/2 (241) 17-3/8 (442) 7-7/8 (200)
3″ 11-1/8 (283) 19-3/4 (501) 8-7/8 (225)
4″ 12 (305) 23-3/8 (594) 9-7/8 (251)
5″ 15 (381) 23-3/4 (603) 12-1/2 (318)
6″ 15-7/8 (403) 32-1/8 (816) 14 (356)
8″ 16-1/2 (420) 41 (1041) 15-3/4 (400)
10″ 18 (457) 48-3/8 (1229) 17-3/4 (451)
12″ 19-3/4 (501) 57 (1448) 20 (508)
14″ 30 (762) 62-1/2 (1588) 22 (559)
16″ 33 (838) 69 (1753) 25 (635)
18″ 36 (914) 80-1/2 (2045) 28 (711)
20″ 39 (991) 91 (2311) 35-1/2 (902)
24″ 45 (1143) 120-1/2 (3061) 43 (1092)
GEAR OPERATOR RECOMMENDED FOR SIZE 8″ AND ABOVE

 

GATE VALVE DIMENSION CLASS 600

Dimensions in inches (millimeters)

SIZES L/L1 H (OPEN) W
2″ 11-1/2 (290) 16-1/2 (420) 7-7/8 (200)
2-1/2″ 13 (330) 18 (457) 8-7/8 (225)
3″ 14 (356) 20-1/8 (511) 9-7/8 (251)
4″ 17 (432) 25 (635) 14 (356)
5″ 20 (508) 30-1/2 (775) 15-3/4 (400)
6″ 22 (559) 33-5/8 (854) 17-3/4 (451)
8″ 26 (660) 42-3/8 (1076) 20 (508)
10″ 31 (787) 49 (1245) 25 (635)
12″ 33 (838) 68-1/2 (1740) 27 (686)
14″ 35 (889) 69 (1753) 31-1/2 (800)
16″ 39 (991) 74 (1880) 35-1/2 (902)
18″ 43 (1092) 84-1/4 (2140) 43 (1092)
20″ 47 (1194) 93-1/2 (2375) 51 (1295)
24″ 55 (1397) 110 (2794) 51 (1295)
GEAR OPERATOR RECOMMENDED FOR SIZE 8″ AND ABOVE

 

GATE VALVE DIMENSION CLASS 900

Dimensions in inches (millimeters)

SIZES L/L1 H (OPEN) W
2″ 14-1/2 (368) 26 (660) 10-1/4 (260)
3″ 15 (381) 26-3/8 (670) 11-1/2 (292)
4″ 18 (457) 30 (762) 14 (356)
6″ 24 (610) 40-3/4 (1035) 20 (508)
8″ 29 (737) 51 (1295) 24 (610)
10″ 33 (838) 61 (1549) 27 (686)
12″ 38 (965) 69-1/2 (1765) 31-1/2 (800)
14″ 40-1/2 (1029) 77 (1956) 35-1/2 (902)
16″ 44-1/2 (1130) 82-3/4 (2102) 43 (1092)
GEAR OPERATOR RECOMMENDED FOR SIZE 6″ AND ABOVE

 

GATE VALVE DIMENSION CLASS 1500

Dimensions in inches (millimeters)

SIZES L/L1 H (OPEN) W
2″ 14-1/2 (368) 21-1/2 (546) 11-1/2 (290)
3″ 18-1/2 (470) 27-1/8 (689) 14 (356)
4″ 21-1/2 (546) 31-1/2 (800) 20 (508)
6″ 27-3/4 (705) 45 (1143) 24 (610)
8″ 32-3/4 (832) 53-1/2 (1359) 27 (686)
10″ 39 (991) 65 (1651) 35-1/2 (902)
12″ 44-1/2 (1130) 74 (1880) 43 (1092)
14″ 49-1/2 (1257) 83-1/2 (2121) 51 (1295)
16″ 54-1/2 (1384) 88 (2235) 63 (1600)
GEAR OPERATOR RECOMMENDED FOR SIZE 6″ AND ABOVE

 

GATE VALVE DIMENSION CLASS 2500

Dimensions in inches (millimeters)

SIZES L/L1 H (OPEN) W
2″ 17-3/4 (451) 24-7/8 (632) 12 (305)
3″ 22-3/4 (578) 36 (914) 20 (508)
4″ 26-1/2 (673) 41-1/2 (1054) 20 (508)
6″ 36 (914) 57 (1448) 24 (610)
8″ 40-1/4 (1022) 63-3/8 (1610) 24 (610)
GEAR OPERATOR RECOMMENDED FOR SIZE 6″ AND ABOVE

 

GATE VALVE PRICES

Looking for the price of gate valves? Click on the image and check our online gate valves price estimation tool!

price gate valve

The tool estimates the price for cast and forged gate valves manufactured in Europe and Asia.

Even if our price estimates are reliable, prices shall always be double checked with gate valves manufacturers and distributors.

 

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