Emerson Fisher V500 Data Sheet

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FisherrRotary Valve Selection Guide

TYPICAL Fisher ROTARY VALVES

V260 VALVE Vee-BalltVALVE Control-DisktVALVE

W6539 W9418-2

W8172-3

Control-Disk Valve Expanded control range, lower process

variability Fisher Control-Disk Valve

Vee-Ball Valves High-capacity, low-friction, non-clogging Fisher V150, V200, V300, and V150S

High-Performance Butterfly Valves

Outstanding performance under extreme

pressure and temperature conditions, available

foravarietyofthrottlingoron/offapplications

Fisher 8510, 8532, 8580, 9500, and DSV

Fisher POSI-SEALtA11, A31A, A31C, A31D, and

A81

Pipeline Valves

Full-or reduced-bore ball valves for throttling

and severe service applications in gas

transmission lines, gas distribution, or liquid

pipelines

Fisher V250 and V260

Eccentric Plug Valves Designed for throttling control for a broad range

of industrial applications Fisher V500 and CV500

ENVIRO-SEALtlive-loaded packing systems are available to assist in compliance with

environmental emissions requirements

FIELDVUEtdigital valve controllers offer digital control and remote diagnostics. The

traditional proven line of Fisher positioners, controllers, transmitters, and switches also is

available.

Spring-return pneumatic diaphragm and double-acting piston actuators

Contact your Emerson Process Management sales office for details

Rotary Valve Selection Guide

D102550X012

Product Bulletin

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January 2013

Rotary Valve Selection Guide

D102550X012

Product Bulletin

40:002

January 2013

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Fisher Control-Disk Valve

Figure 1. Fisher Control-Disk Valve

Control-Disk VALVE

W9421

Control-Disk Valve

Applications

Expanded control, lower process variability applications

Style

Wafer and single flange

Sizes

NPS2,3,4,6,8,10,12

Ratings

PN 10 to 40

CL150 and CL300

End Connections

Raised-face (RF)

Valve Body Materials

EN: 1.0619 steel, 1.4409 stainless steel, CW2M, or M35-1

ASME: SA216 WCC steel, SA351 CF3M stainless steel, CW2M, or M35-1

Disk Material

SA351 CF3M stainless steel

Seal Types (Material)

Soft (PTFE or UHMWPE) or metal (S31600)

Flow Characteristics and Maximum Flow Coefficients

Equal percentage

Maximum Cv from 60.7 to 4530

Rangeability (Flow Coefficient Ratio)

100 to 1

Shutoff Class

Soft Seal: Bubble-tight

Metal Seal: 1% of Class IV

Available Actuators (refer to page 11)

Fisher 2052, 1051, 1052, and 1061

Rotary Valve Selection Guide

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Fisher Vee-Ball Valves

Figure 2. Fisher Vee-Ball Valves

V150 and V300 VALVES

W5787

V200 VALVE

W74351 W8509

V150S VALVE

V150 AND V300 V200 V150S

Applications

Excellentforfibrousslurriesaswellasliquids,gas,

and steam. Shearing V-notch ball for smooth,

non-clogging action.

Excellentforfibrousslurriesaswellasliquids,gas,

andsteam.ShearingV-notch ball for smooth,

non-clogging action.

Highly wear-resistant trim materials and an

unrestricted flow path make this design ideal for

controlling the most abrasive of slurries.

Sizes

V150: DN 25 -500 or NPS 1 -24 x 20

V300: DN 25 -500 or NPS 1 -20 NPS 1, 1-1/2, 2, 3, 4, 6, 8, 10 NPS3,4,6,8,10,12

Ratings

V150: PN 10/16 or CL150

V300: PN 25/40 or CL300 CL150, CL300, or CL600 depending on size. CL150

End Connections

Raised-face (RF) flanged Flangeless Raised-face (RF) flanged

Valve Body Materials

EN: 1.0619 steel, 1.4409 stainless steel, M35-1, or

CW2M

ASME: SA216 WCC steel, SA351 CF3M, CG8M

stainless steel, M35-1, or CW2M

EN: 1.0619 steel, 1.4409 stainless steel, M35-1, or

CW2M

ASME: SA216 WCC steel, SA351 CF3M, CG8M

stainless steel, M35-1, or CW2M

SA216 WCC steel body liner: (high-chrome iron

SA532 Class III Type A)

Ball Material

SA351 CF3M, or CG8M stainless steel, CW2M SA351 CF3M or CG8M stainless steel, CW2M High-chrome iron SA532 Class III Type A (PSZ

ceramic ball is optional)

Seal Types (Material)

TCM Plus, metal (S31600), HD (heavy duty)

metal, or flow ring

TCM Plus, metal (S31600), HD (heavy duty)

metal, or flow ring Flow ring construction

Flow Characteristics and Maximum Flow Coefficients

Modified equal percentage

Maximum Cv from 3.64 to 10,300

Modified equal percentage

Maximum Cv from 8.4 to 3000

Modified equal percentage

Maximum Cv from 170 to 2850

Rangeability

300 to 1 300 to 1

Shutoff Class

Composition Seal: Class VI

Metal Seal: Class IV

Flow Ring Construction: 5% of wide-open capacity

Composition Seal: Class VI

Metal Seal: Class IV

Flow Ring Construction: 5% of wide-open capacity

Class I

Available Actuators (refer to page 11)

Fisher 2052, 1051, 1052, 1061, and FieldQt

Rotary Valve Selection Guide

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Fisher High-Performance Butterfly Valves

Figure 3. Fisher High-Performance Butterfly Valves

8580 VALVE 8532 VALVE 8510 VALVE

W3542

W9498-2 W9138-2

8580 8532 8510

Applications

Precise throttling service for process

temperatures from -129 to 454_C

Throttling service, high-temperature, and

cryogenic applications; -196 to 816_C

General-purpose valve for a variety of liquids and

gasses

Style

Wafer and single flange Wafer and single flange Wafer and single-flange

Sizes

NPS2,3,4,6,8,10,12 NPS 14, 16, 18 ,20, 24 DN 350, 400, 500, 600

NPS 14, 16, 18, 20, 24

Ratings

PN 10 to 40

CL150 and CL300 CL150 and CL300 PN 16

CL150

End Connections

Raised-face (RF) Raised-face (RF) and ring-type joint (RTJ) Raised-face (RF)

Valve Body Materials

EN: 1.0619 steel, 1.4409 stainless steel

ASME: SA216 WCC steel, SA351 CF3M stainless

steel

High-alloy materials are available

SA216 WCC steel or SA351 CF8M stainless steel

High-alloy materials are available

SA216 WCC steel or SA351 CF8M stainless steel

High-alloy materials are available

Disc Material

SA351 CF3M stainless steel SA351 CF8M stainless steel SA216 WCC steel or SA351 CF8M stainless steel

Seal Types (Materials)

Soft (PTFE or UHMWPE) or metal (S31600) Soft (PTFE), NOVEX, and Phoenix III Soft (PTFE) or metal (S31600)

Flow Characteristics and Maximum Flow Coefficients

Approximately linear

Maximum Cvfrom 83.7 to 5080

Modified equal percentage

Maximum Cvfrom 4550 to 21,500

Approximately linear

Maximum Cv from 7040 to 21,800

Rangeability

100 to 1 100 to 1 100 to 1

Shutoff Class

Soft Seal: Class VI

Metal Seal: 1% of Class IV

Soft Seal: Class VI

NOVEX Seal: SP-61

Phoenix III Seal: Class VI

PTFE Seal: Bidirectional Class VI

S31600 Seal: 1/10 of Class IV

Available Actuators (refer to page 11)

Fisher 2052, 1051, 1052, and 1061 Fisher 1051, 1052, and 1061 Fisher 2052, 1051, 1052, and 1061

Rotary Valve Selection Guide

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Fisher High-Performance Butterfly Valves (continued)

Figure 4. Fisher High-Performance Butterfly Valves (continued)

9500 VALVE DSV VALVE

W1628 W6094

9500 DSV

Applications

Fully lined butterfly valve for on/off or throttling service for tight-shutoff

applications Rapid on/off, high-cycle applications; temperatures to 232_C

Style

Wafer Wafer

Sizes

NPS2,3,4,6,8,10,12 NPS 4, 6, 8, 10, 12, 14

Ratings

PN10, PN13, CL125B, CL150, or CL300 depending on size and material CL300

End Connections

Cast Iron Bodies: Mate with PN 10 (NPS 2, 3, 6, 8, 10) or CL125B FF flanges

Steel and Stainless Steel Bodies: Mate with PN16, CL150, CL300 RF flanges Mates with CL300 RF flanges

Valve Body Materials

Cast iron, carbon steel, S31600 stainless steel SA240 S31600 stainless steel

Disc Material

Aluminum bronze, S31600 stainless steel SA351 CG8M stainless steel

Seal Types (Material)

Fully lined nitrile or PTFE No seal

Flow Characteristics and Maximum Flow Coefficients

Approximately equal percentage through 90_rotation for FISHTAILtdisc

and through 60_rotation for conventional disc

Maximum Cv from 91 to 7020

On/off service

Maximum Cv from 434 to 7040

Rangeability

100 to 1 100 to 1

Shutoff Class

Class VI 5% of valve capacity

Available Actuators (refer to page 11)

Fisher 2052, 1051, 1052, and 1061 Fisher 1061

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Fisher POSI-SEAL High-Performance Butterfly Valves

Figure 5. Fisher POSI-SEAL High-Performance Butterfly Valves

A11 VALVES

W9529-2 W9570-1

A11

Applications

Throttling and automated on/off service, high-pressure, high-temperature, and cryogenic applications; -254 to 816_C

Style

Wafer and single flange

Ratings and Sizes

CL150/150 and CL150: NPS 30, 36, 42, 48, 54, 60, 66, 72

CL300: NPS 30, 36, 42, 48

CL600: NPS 3, 4, 6, 8, 10, 12, 14, 16, 18, 20, 24, 30, 36, 42, 48 (CL300 trim available for NPS 3 through 48)

CL900: NPS 6, 8, 10, 12, 14, 16 ,18, 20, 24, 30, 36 (CL300 and CL600 trim available for NPS 3 through 48)

CL1500: NPS 10, 12, 14, 16, 18, 20 (CL300 and CL600 trim available for NPS 3 through 48, CL900 trim available for NPS 6 through 36)

CL2500: Consult your Emerson Process Management sales office

End Connections

Raised-face(RF),ring-typejoint(RTJ),andbuttweldingends(BWE)

NPS 3 through 24 comply with ASME B16.5

NPS 30 through NPS 60 comply with MSS-SP-44

Valve Body Materials

SA216 WCC steel or SA351CF8M stainless steel

Other carbon steel, stainless steel, and high-alloy materials are available

Disc Material

CL150/150, CL150, and CL300: SA351 CF8M stainless steel or SA216 WCC steel

CL600: SA351 CF8M stainless steel

CL900 and CL1500: CB7Cu-1

Seal Types (Material)

CL150 and CL300: Soft (PTFE), NOVEX (S31600), Phoenix III (S31600/PTFE), and cryogenic (CTFE)

CL600, CL900, and CL1500: Soft (ETFE), Metal (S20910), high-pressure (S20910), Phoenix III (S31600/ETFE), and cryogenic (CTFE)

Flow Characteristics and Maximum Flow Coefficients

Maximum Cv from 182 to 106,000

Rangeability (Flow Coefficient Ratio)

100 to 1

Shutoff Class

Soft Seal: Bidirectional bubble-tight (Class VI or better)

NOVEX Seal: Class V (standard), Class VI (optional)

Metal Seal: 20% of Class IV

High-Pressure Seal: Class V (standard), Class VI (optional)

Phoenix III Seal: Class VI

Cryogenic Seal: 0.1% of Class IV

Available Actuators (refer to page 11)

Fisher 2052, 1051, 1052, 1061, FieldQ, and Bettist

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Fisher POSI-SEAL High-Performance Butterfly Valves

(continued)

Figure 6. Fisher POSI-SEAL High-Performance Butterfly Valves (continued)

A81 VALVE A31A VALVE

W9461 W9134-2

A81 A31A A31D

Applications

On/off service, rack-and-pinion actuator for

temperatures from -129 to 454_C

On/off service, high-temperature and cryogenic

applications; -196 to 816_C

On/off and throttling service, high-temperature

and cryogenic applications; -196 to 816_C

Style

Wafer and single flange Wafer and single flange Double flange

Sizes

NPS2,3,4,6,8,10,12 NPS 14, 16, 18, 20, 24 NPS 3, 4, 6, 8, 10, 12, 14, 16, 18, 20, 24

Ratings

PN 10 to 40

CL150 and CL300 CL150 and CL300 CL150 and CL300

End Connections

Raised-face (RF) Raised-face (RF) and ring-type joint (RTJ) Raised-face (RF) and ring-type joint (RTJ)

Valve Body Materials

EN: 1.0619 steel, 1.4409 stainless steel

ASME: SA216 WCC steel, SA351 CF3M stainless

steel

High-alloy materials are available

SA216 WCC steel or SA351 CF8M stainless steel

High-alloy materials are available

SA216 WCC steel or SA351 CF8M stainless steel

High-alloy materials are available

Disc Material

SA351 CF3M stainless steel SA351 CF8M stainless steel SA351 CF8M stainless steel

Seal Types (Material)

Soft (PTFE or UHMWPE) or Metal (S31600) Soft (PTFE), NOVEX, or Phoenix III Soft (PTFE), NOVEX, or Phoenix III

Flow Characteristics and Maximum Flow Coefficients

MaximumCvfrom83.7to5080 Maximum Cv from 4550 to 21,500

Rangeability

100 to 1 100 to 1 100 to 1

Shutoff Class

Soft Seal: SP-61

Metal Seal: SP-61

Soft Seal: Class VI

NOVEX Seal: SP-61

Phoenix III Seal: Class VI

Soft Seal: Bidirectional bubble-tight (Class VI or

better)

NOVEX Seal: Class V (standard); Class VI (optional)

Phoenix III Seal: Class VI

Available Actuators (refer to page 11)

FieldQ Bettis Fisher 2052, 1051, 1052, 1061 and Bettis

Rotary Valve Selection Guide

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Cryogenic Butterfly Valves

Figure 7. Fisher Cryogenic Butterfly Valves

W7449

TYPICAL CRYOGENIC BUTTERFLY VALVE

A31C 8532 A31A A11

Applications

A31C stainless steel cryogenic valves

for liquified natural gas and other

special chemical and hydrocarbon

applications with temperatures to

-254C

8532 stainless steel cryogenic valves

for liquified natural gas and other

special chemical and hydrocarbon

applications with temperatures to

-254C.

A31 stainless steel cryogenic valves

for liquified natural gas and other

special chemical and hydrocarbon

applications with temperatures to

-254C.

A11 stainless steel cryogenic valves

for liquified natural gas and other

special chemical and hydrocarbon

applications with temperatures to

-254C.

Style

Wafer, single flange, and double

flanged

Wafer, single flange, and double

flanged

Wafer, single flange, and double

flanged

Wafer, single flange, and double

flanged

Ratings and Sizes

CL150 and CL300: NPS 3 -12 CL150 and CL300: NPS 14 -24 CL150 and CL300: NPS 14 -24 CL150/150, CL150, CL300:

NPS 30 -48

CL600: NPS 3 -24

CL900: NPS 6 -24

CL1500: NPS 10 -20

End Connections

Raised-face (RF), ring-type joint (RTJ) Raised-face (RF), ring-type joint (RTJ) Raised-face (RF), ring-type joint (RTJ) Raised-face (RF), ring-type joint (RTJ)

Valve Body Materials

SA351 CF8M stainless steel SA351 CF8M stainless steel SA351 CF8M stainless steel SA351 CF8M stainless steel

Disc Material

SA351 CF8M stainless steel SA351 CF8M stainless steel SA351 CF8M stainless steel SA351 CF8M stainless steel

Seal Types (Material)

NOVEX and Cryogenic (CTFE and

CTFE/aluminum)

NOVEX and Cryogenic (CTFE and

CTFE/aluminum)

NOVEX and Cryogenic (CTFE and

CTFE/aluminum)

CL150 and CL300: NOVEX and

Cryogenic (CTFE)

CL600, CL900, and CL1500:

HPS and cryogenic (CTFE)

Flow Characteristics and Maximum Flow Coefficients

Maximum Cv from 188 to 4940 Maximum Cv from 4550 to 21,500 Maximum Cv from 4550 to 21,500 Maximum Cv from 182 to 106,000

Rangeability

100 to 1 100 to 1 100 to 1 100 to 1

Shutoff Class

NOVEX Seal: Class VI

Cryogenic (CTFE) Seal: 0.1% of Class

IV

Cryogenic (CTFE/Aluminum) Seal:

Class VI

NOVEX Seal: Class VI

Cryogenic (CTFE) Seal: 0.1% of Class

IV

Cryogenic (CTFE/Aluminum) Seal:

Class VI

NOVEX Seal: Class VI

Cryogenic (CTFE) Seal: 0.1% of Class

IV

Cryogenic (CTFE/Aluminum) Seal:

Class VI

NOVEX Seal: Class VI

Cryogenic (CTFE) Seal: 0.1% of Class

IV

Cryogenic (CTFE/Aluminum) Seal:

Class VI

HPS: Class VI

Available Actuators (refer to page 11)

Fisher 2052, 1051, 1052, 1061; FieldQ and Bettis FieldQ and Bettis Fisher 2052, 1052, 1061; FieldQ and

Bettis

Rotary Valve Selection Guide

D102550X012

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January 2013

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Fisher Pipeline Valves

Figure 8. Fisher Pipeline Valves

V250 VALVE V260 VALVE

W7169 W6365

V250 V260

Applications

Heavy-duty, flangeless throttling ball valves. Often used for controlled flow

applications in gas transmission lines, gas

distribution, and liquid pipelines. Temperatures from -40 to 204C,

depending on seal type

Large, flanged throttling ball valves. Used for demanding pipeline

applications such as pump bypass and pipeline take-off. Temperatures from

-29 to 93C, depending on seal type

Style

Flangeless Flanged

Sizes

NPS 4, 6, 8, 10, 12, 16, 18, 20, 24 NPS 8, 10, 12, 16, 20, 24

Ratings

CL600 or CL900 CL150, CL300, or CL600

End Connections

Raised-face (RF) or ring-type joint (RTJ) Raised-face (RF)

Valve Body Materials

Carbon steel (LCC) Carbon steel (LF2)

Ball Material

Chrome-plated WCC steel Chrome-plated WCC steel

Seal Types (Material)

Single or dual seal (POM) or flow ring Single or dual (PEEK/PTFE or POM)

Flow Characteristics and Maximum Flow Coefficients

Modified equal percentage

Maximum Cv from 499 to 18,300

Modified linear or modified equal percentage

Maximum Cv from 4960 to 31,000

Rangeability

100 to 1 100 to 1

Shutoff Class

Single and Dual Seal: Lass than 1% of Class IV

Flow Ring: 1% of valve capacity

Single or Dual Seal: Less than 10% of Class IV

PEEK/PTFE Seal: Less than 10% of Class IV

POM Seal: Lass than 10% of Class IV

Available Actuators (refer to page 11)

Fisher 1051, 1052, 1061, and Bettis Fisher 1051, 1052, 1061, and Bettis

Rotary Valve Selection Guide

D102550X012

Product Bulletin

40:002

January 2013

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Fisher Eccentric Plug Valves

Figure 9. Fisher Eccentric Plug Valves

V500 VALVE CV500 VALVE

W4170 W5793

V500 CV500

Applications

Flanged or flangeless eccentric plug rotary control valve for erosive, coking,

and other hard-to-handle fluids. Throttling or on/off. Temperatures from

-198 to 538C, depending on materials.

Rugged flanged or flangeless cammed-segmented V-notch ball valve

offering erosion resistance and pressure control for gases, liquids, and

fibrous slurries. Throttling or on/off. Temperatures from -198 to 538C,

depending on materials.

Style

Flanged or flangeless Flanged or flangeless

Sizes

DN 25 -200 or NPS 1 -8DN 80 -300 or NPS 3 -12

Ratings

PN 10 -100 or CL150 -CL600 PN 10 -100 or CL150 -CL600

End Connections

Raised-face (RF) or ring-type joint (RTJ) Raised-face (RF)

Valve Body Materials

WCC steel or 316 stainless steel EN: 1.0619 steel or 1.4581 stainless steel

ASME: WCC steel or CF3M and CF8M stainless steel

Plug Material

Chrome-plated CF8M, solid alloy 6, or ceramic CF3M stainless steel

Flow Characteristics and Maximum Flow Coefficients

Modified linear

Maximum Cv from 12.2 to 1050

Modified equal percentage

Maximum Cv from 181 to 3080

Rangeability

100 to 1 200 to 1

Shutoff Class

Class IV Class IV

Available Actuators (refer to page 11)

Fisher 2052, 1051, 1052, 1061, and FieldQ Fisher 2052, 1051, 1052, 1061, and FieldQ

Rotary Valve Selection Guide

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Fisher 2052, 1051, 1052, and 1061 Actuators

Figure 10. Fisher Rotary Valve Actuators

2052 ACTUATOR 1051 AND 1052 ACTUATORS 1061 ACTUATO

R

W3813 W3827

W9589

2052 1051 AND 1052 1061

Features

Heavy-duty actuator with enclosed linkage and splined actuator-valve connection for minimized lost motion

Style

Spring-return pneumatic diaphragm actuator Spring-return pneumatic diaphragm actuator Double-acting pneumatic piston actuator

Typical Operating Torque Range (Varies with Operating Pressure and Construction)

50.8 to 565 NSm85 to 1370 NSm282 to 19,800 NSm

Accessories

Pneumatic or electro-pneumatic valve positioners, FIELDVUE digital valve controllers, limit switches, position transmitters, handwheels, travel stops,

lock-out device to disable actuator during maintenance, supply pressure filter-regulator.

Rotary Valve Selection Guide

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FieldQ and Bettis GActuators

Figure 11. Rotary Valve Actuators

BETTIS G-SERIES ACTUATOR

FieldQ ACTUATORS

W9429 W8305

FieldQ ACTUATOR Bettis G

Features

Compact rack-and-pinion pneumatic actuator for quarter-turn applications

for mounting to Fisher valves Scotch yoke type actuator for mounting to Fisher rotary valves.

Style

Double-acting or spring-return pneumatic piston actuator Double-acting or spring-return series single power module pneumatic

actuator

Typical Operating Torque Range (Varies with Operating Pressure and Construction)

40 to 2444 NSm531 to 5650 NSm

Accessories

Pneumatic or electro-pneumatic valve positioners, FIELDVUE digital valve

controllers, limit switches, position transmitters, travel stops

Pneumatic or electro-pneumatic valve positioners, FIELDVUE digital valve

controllers, limit switches, position transmitters, handwheels, travel stops,

supply pressure filter-regulator

Rotary Valve Selection Guide

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Alloy Valve Guidelines

Emerson Process Management expertise has combined its knowledge of metals and foundry

techniques with valve user experience in creating high alloy valves that fight corrosion

successfully.

Guidelines have been developed to help the valve user specify alloy valves correctly.

Techniques have also been implemented that verify a foundry's ability to cast alloy valves

properly and has established stringent specifications that guide the foundry in providing

quality results.

Valve user guidelines include: Avoid the use of alloy tradenames, Don't specify wrought for

cast, Forego non-destructive testing.

Steps used to qualify a foundry include: Weldability tests to gauge the foundry's ability to pour

alloy materials, Dedicating casting patterns solely to high-alloy service.

Stringent specifications developed by Emerson Process Management include: Raw Material

Composition and Quality, Heat Qualification, Visual Inspection, Weld Repair, Heat Treatment,

and Nondestructive Testing.

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Figure 12. Typical Fisher Rotary Products

DVC2000 DVC6200 on Control-Disk VALVE

W8755 W9418-2

A complete line of actuators and accessories for the Fisher rotary valves is offered that meet

your price/performance expectations

FIELDVUE digital valve controllers are communicating, microprocessor-based controllers that

use HARTrand FOUNDATIONtfieldbus protocols. Through digital communications, the

controllers give easy access to actuator, valve, and instrument information that is critical to

process operation

ValveLinktsoftware and AMS Suite: Intelligent Device Manager allow you to care for and

maintain equipment assets -- such as valves, transmitters, analyzers, motors, pumps, and

plant unit equipment such as pipes, vessels, tanks, columns, reactors, digesters, etc. -- to

improve yields and minimize downtime of industrial manufacturing processes.

Contact your Emerson Process Management sales office for details

Rotary Valve Selection Guide

D102550X012

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Rotary Valve Selection Guide

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Emerson Process Management

Marshalltown, Iowa 50158 USA

Sorocaba, 18087 Brazil

Chatham, Kent ME4 4QZ UK

Dubai, United Arab Emirates

Singapore 128461 Singapore

www.Fisher.com

The contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they arenot

to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or their use or applicability. All sales are

governed by our terms and conditions, which are available upon request. We reserve the right to modify or improve the designs or specifications of such

products at any time without notice.

E1998, 2013 Fisher Controls International LLC. All rights reserved.

Fisher, Vee-Ball, Control-Disk, POSI-SEAL, ENVIRO-SEAL, FIELDVUE, FieldQ, Bettis, FISHTAIL, and ValveLink are marks owned by one of the companies in the

Emerson Process Management business unit of Emerson Electric Co. Emerson Process Management, Emerson, and the Emerson logo are trademarks and

service marks of Emerson Electric Co. All other marks are the property of their respective owners.

Neither Emerson, Emerson Process Management, nor any of their affiliated entities assumes responsibility for the selection, use or maintenance

of any product. Responsibility for proper selection, use, and maintenance of any product remains solely with the purchaser and end user.