PDF- api 6d floating ball valves, -MINUTES Meeting of the API SUBCOMMITTEE ON - My Committees - Cameron Intro to API 6D 6DSS PDF

Description

A Cameron Introduction to API 6D and 6DSS Specifications 1

API 6D (ISO 14313): Specification for Pipeline Valves API 6DSS (ISO 14723): Subsea Pipeline Valves 2

NACE MR0175 (ISO 15156): Petroleum and Natural Gas Industries Materials for Use in H2S Containing Environments In Oil and Gas Production API Q1 (ISO TS 29001): Specification for Quality Programs for The Petroleum,

Petrochemical,

and Natural Gas Industry The API Monogram Program and ISO Accreditations

TABLE OF CONTENTS

Overview

9 Welding

OVERVIEW

Cameron supports the development and use of international product standards such as those published by API and ISO

These standards

provide a common basis for product characteristics and performance attributes and act to capture the successful industry history associated with these products

Products marketed,

manufactured and used in compliance with recognized industry standards add significant value to our industry

Cameron endorses the API Monogram Program and API Quality Program Specification Q1

API Q1 applies the recognized benefits of the ISO 9001 Quality Program elements tailored specifically to the oil and gas industry

The API Monogram Program joins the assessment of quality programs with the demonstrated ability to comply with international product standards such as API 6D (ISO 14313) Specification for Pipeline Valves and API 6DSS (ISO 14723) Specification for Subsea Valves

Cameron proudly holds the first two API 6D licenses (6D-

Cameron routinely provides products and services that meet requirements of international standards such as API and ISO

It is important to also understand that in many cases,

standards represent only industry-accepted minimum requirements

Exceeding minimum requirements is one recognized element of Cameron’s reputation for quality products and services delivered worldwide

API SPECIFICATION 6D (ISO 14313)

API Specification 6D (ISO 14313) is the recognized industry standard for pipeline valves that was formulated under the jurisdiction of the API Standards Subcommittee on Valves and Wellhead Equipment (API SC6)

ISO 14313 was prepared by Technical Committee ISO/TC 67: Materials,

equipment and offshore structures for petroleum and natural gas industries,

Subcommittee SC 2,

Pipeline transportation systems

API SPECIFICATION 6DSS (ISO 14723)

API Specification 6DSS (ISO 14723) is based on ISO 14313

It has been developed to address special requirements specific to subsea pipeline valves

This international standard is also under the jurisdiction of the API Standards Subcommittee (API SC6) on Valves and Wellhead Equipment

ISO 14723 was prepared by Technical Committee ISO/TC 67: Materials,

equipment and offshore structures for petroleum and natural gas industries,

Subcommittee SC 2,

Pipeline transportation systems

Both these standards specify requirements and provide recommendations for the design,

testing and documentation of ball,

plug and gate valves for applications in pipeline systems meeting the requirements of ISO 13623 for the petroleum and natural gas industries

API Specification 6D (ISO 14313) is also specified as the base standard for manufacture of subsea equipment in accordance with API Specification 6DSS (ISO 14723)

These international standards are not applicable to valves for pressure ratings exceeding Class 2500 (PN 420)

These standards do not prescribe requirements for field use,

testing or repair of covered products nor covers aftermarket remanufacture and repair activities

These requirements are covered under API 6DR recommended practice

Major sections of API 6D (ISO 14313) and API 6DSS are:

• Scope • Normative References • Terms and Definitions • Valve Types and Configurations (ball,

plug) • Design • Materials • Welding

API SPECIFICATION 6DSS (ISO 14723)

• Quality Control • Testing • Marking • Storage/Shipping • Documentation • Annex’s (NDE/testing/documentation/purchasing)

Elements not addressed in API 6D (ISO 14313) and API 6DSS include:

EQUIPMENT

• Research and Development • Supplier Management • Reliability • Field Maintenance and Service

API Specification 6D (ISO 14313) and API 6DSS (ISO 14723) cover Pipeline and Subsea Pipeline Valves as follows: Pipeline Valves

Pressure Class 150

-Floater

-Trunnion

6D 6D 6D/6DSS

6D 6D 6D/6DSS

6D 6D 6D/6DSS

6D 6D 6D/6DSS

6D 6D 6D/6DSS

6D 6D 6D/6DSS

6D 6D 6D/6DSS

-Piston

6D 6D 6D/6DSS 6D

6D 6D 6D/6DSS 6D

6D 6D 6D/6DSS 6D

6D 6D 6D/6DSS 6D

6D 6D 6D/6DSS 6D

6D 6D 6D/6DSS 6D

6D 6D 6D/6DSS 6D

-Expanding

SURFACE and UNDERWATER SAFETY VALVES

Background Normative references are taken from:

• ANSI – American National Standards Institute

• ASME – American Society of Mechanical Engineers

• ASNT – American Standard for Nondestructive Testing

• ASTM – American Society for Testing and Materials

• AWS – American Welding Society

• ISO – International Standards Organization

• MSS – Manufacturers’ Standardization Society

• NACE – National Association of Corrosion Engineers

The minimum Product Specification Level (PSL) for an SSV or USV is PSL 2

Special Design Requirements Requirements for design apart from general requirement for valves include:

• A  cceptable design codes and calculations for pressure containing parts/ materials as specified in B16

• P  ressure-containing design and calculations in accordance with agreed,

internationally recognized design codes or standards,

for example ASME Section VIII Division 1 or Division 2,

• T  he minimum design thrust or torque for design calculations shall be at least two times the predicted breakaway maximum design thrust or torque of any operating condition at 38°C (100°F) at maximum pressure differential (MPD),

or at an operational temperature and/or pressure causing the highest thrust or torque

• M  ax force on hand-wheel breakaway thrust/torque 180 N

For API 6DSS valves,

ROV interface is per ISO 13628-8 (API 17D)

• V  isible position indicator showing the open and closed position of the obturator (closure member) of the ball,

PRESSURE RATINGS

Valves covered by these international standards are furnished per ANSI/ASME rating or the nominal pressure (PN) classes in seven different pressure ratings representing the maximum working pressure of the equipment as follows: Class 150 (PN 20) @

Class 900 (PN 150) @

Class 300 (PN 50) @

Class 1500 (PN 250) @

Class 400 (PN 64) @

Class 2500 (PN 420) @

Class 600 (PN 100) @

TEMPERATURE CLASSES

Pressure-temperature ratings for ANSI/ASME class-rated valves are in accordance with the applicable rating table for the appropriate material group in ASME B16

For intermediate design pressures and temperatures,

the pressure-temperature rating is determined by linear interpolation

Pressure-temperature ratings for non-ASME B16

For 6DSS valves,

the minimum design temperature is 32°F (0°C ) unless otherwise specified

If the maximum pressure differential (MPD) at which the valve is required to be opened is not specified,

then the pressure rating as determined for material at 100°F (38°C) shall be the MPD

Note: Non-metallic parts can limit maximum pressures and minimum and maximum temperatures

DESIGN VERIFICATION TESTING

Performance verification testing is performed on production valves to validate that the performance requirements specified for pressure,

mechanical cycles and standard test fluids are met in the design of the product

Performance Verification Testing may include: • Hydrostatic Shell/Seat Testing • Pneumatic/Air/Gas Testing • Pressure/Temperature Cycles • Load/Mechanical Cycles • Functional and Operational Testing Although pneumatic/air/gas testing is an optional requirement in API Specification 6D (ISO 14313),

Cameron is proud to offer a wide variety of products proven to meet,

the performance verification requirements of API 6D (ISO 14313)

MATERIAL CLASSES

There are various Material Classes which specify minimum material requirements for general or sour service

API 6D (ISO 14313) and/or 6DSS (ISO 14723) equipment must be designed,

tested and marked as satisfactory for one of these Material Classes

Minimum Material Requirements • M  anufacturer shall develop documented material specification for pressure-containing and pressure-controlling parts agreed design standard such as ASME B16

• Chemical/carbon equivalent restrictions

Specification

Phosphorus

Sulphur

• A  ustenitic stainless steel weld end valves:

03% max

08% max

carbon if the material is stabilized • F racture toughness on base material and weld metal is based on yield strength (SMYS) and not tensile strength for all carbon/alloy material design temperature as:

-20º C

-29º F

+32º F

MATERIAL CLASSES

• B  olting material with a hardness exceeding HRC 34 (Rockwell C) or HBW 340 (Brinell) are not to be used for valve applications where hydrogen embrittlement can occur,

• A  s'defined by National Association of Corrosion Engineers (NACE) Standard MR0175,

these material classes will also include an H2S rating in compliance with NACE Standard MR0175

SOUR SERVICE & ISO 15156 (NACE MR0175)

Sour service is defined as any case where the absolute partial pressure of hydrogen sulfide (H2S) exceeds 0

As an example,

if the total shut-in pressure is 2000 psi (13,8 Mpa),

a concentration of 25 parts per million (ppm) is equivalent to 0

API 6D (ISO 14313) and API 6DSS (ISO 17423) specifications require that materials for pressure-containing and pressure-controlling parts including bolting used in sour service meet the requirements of ISO 15156 (all parts)

Partial Pressure Formulas: H2S PPM H2S PSIA = 1,000,000 x Shut-In Pressure H2S PSIA = % H2S x Shut-In Pressure CO2 PSIA = % CO2 x Shut-In Pressure ISO 15156 lists acceptable materials,

including any restrictions on mechanical properties,

heat treat procedures and method of manufacture

As an example,

carbon and low-alloy steels must have a hardness of no more than 22 HRC

If acceptable low alloy steel is welded in an exposed area,

it must be stress relieved at a temperature of at least 1150ºF (593ºC)

Examples of Material Usage Limits per NACE MR0175,

Application (Part)

Maximum H2S at 5000 psi (34,5 Mpa)

Minimum pH of Water Phase

Maximum Temperature

Carbon or Low Alloy Steel

Bonnet,

Hanger Gate,

No Limit

No Limit

No Limit

Bonnet,

No Limit

No Limit

300 ppm

No Limit

Valve Stem Only

No Limit

Ring Gasket

No Limit

No Limit

No Limit

Obturator,

3000 ppm

No Limit

Stellite or Tungsten Carbide

Obturator,

Seat Trim

No Limit

No Limit

No Limit

Nickel Alloys 718 and 925

Bonnet,

Obturator Seat,

No Limit

No Limit

40,000 ppm

No Limit

Nickel Alloys 625 and 825

Bonnet,

Obturator Seat,

No Limit

No Limit

No Limit

SOUR SERVICE & ISO 15156 (NACE MR0175

There are sound reasons for the changes to NACE MR0175

Previous editions did not address the effects of environmental factors other than H2S on the resistance of materials to sulfide-stress cracking

While the major oil and gas companies,

drilling companies and equipment manufacturers were aware of the limitations of the materials they used,

the standard did not provide enough guidance for companies with less experience or metallurgical expertise

In a few cases,

materials that have been approved in MR0175 and widely used for certain components are no longer permitted by the standard

An example is the use of 17-4 PH® stainless steel for tubing hangers

In other cases,

the new restrictions may dictate a change in materials from past usage

For instance,

tubing hangers or valve stems made from 410 or F6NM stainless steel are approved for use only if the partial pressure of H2S is no higher than 1

As a result of such limitations,

it may not be possible to certify that a product complies with NACE MR0175,

without knowing specific fluid conditions

Another change to the standard is the expansion of scope to cover stress corrosion cracking (SCC) as well as sulfide-stress cracking (SSC)

As a result,

AISI 316 and other austenitic stainless steels are limited as to service temperature and chloride content as well as H2S

Recognizing the impact of the new environmental limits in NACE MR0175,

(ISO 15156) the standard now allows purchasers to qualify materials for use outside those limits,

or to use materials not listed

This can be done by using “like for like” materials in an existing field or by documenting successful service history in a comparable application

Purchasers can also perform material qualification testing,

and avoid the lengthy balloting and approval process

There are many additional factors that can dramatically influence the selection of proper materials in addition to those included in NACE

Factors such as temperature are important considerations during completion and throughout the service life of the well

WELDING

QUALITY CONTROL

Welding,

of pressure-containing and pressurecontrolling parts are performed to qualified procedures

The following table applies to pressure containing fabrication and repair weldments for bodies,

seats and end connections or closures:

Requirements

API 6DSS

Weld Procedure Qualification

ISO 15607,

ISO 15609,

ISO 15614-1 or ASME Sec

IX with hardness survey

ISO 15607,

ISO 15609,

ISO 15614-1 or ASME Sec

IX with hardness survey

Welder Performance Qualification

ISO 9606-1,

ASME Sec

IX or EN 287-1

ISO 9606-1,

ASME Sec

IX or EN 287-1

Welding Consumables,

Instrument Calibration

Documented Controls Required

Documented Controls Required

Visual Exam of Weld

Required

Required

Weld Surface NDE: PT/MT

By Agreement

By Agreement

Weld Volumetric NDE: UT/RT

By Agreement

By Agreement

Weld Procedure Qualification Hardness Testing

Meet ISO 15156 (all parts)

Meet ISO 15156 (all parts)

Weld Procedure Qualification

Required in accordance with ISO 148-1 or ASTM A370

Required in accordance with ISO 148-1 or ASTM A370

Specification 6D (ISO 14313) and 6DSS (ISO 14723) describe pertinent information on inspections,

examinations and required documentation

Since the selection of type of testing and nondestructive examination for 6D equipment is ultimately a purchaser’s decision but it is a mandatory requirement for 6DSS equipment,

the following quality control and nondestructive examination (NDE) information is provided to make it easy for users to select the quality level consistent with their risk management needs

NDE Type and Extent

Acceptance Criteria

API 6DSS

API 6DSS

RT of castings – critical areas per ASME B16

34 API 6D

ASME B16

ASME Sec

ASME B16

ASME Sec

RT of castings – accessible areas

ASME B16

ASME Sec

ASME B16

ASME Sec

RT of welds – weldments

ASME Sec

ASME Sec

ASME Sec

Part UW51 (linear indications)

ASME Sec

App 4 (rounded indications)

Same as 6D

UT of castings – critical areas per ASME B16

ASME B16

ASME Sec

ASME B16

ASTM A 609,

Table 2,

UT of castings – accessible areas

ASME B16

ASME Sec

UT of forgings and plate – surface areas

Examination Method

ASTM A 388

ASME Sec

ASME B16

App IV ASME Sec

ASTM A 609,

Table 2,

QL 1 ASME Sec

or ASTM A 578/578M – Level B

QUALITY CONTROL

Examination Method

NDE Type and Extent

API 6DSS

Acceptance Criteria API 6D

API 6DSS

MT of forgings – 100% accessible surface areas

ASME Sec

ASME Sec

ASME Sec

Same as 6D

or no linear indications (sealing surfaces)

MT of bolting

ASME Sec

ASME Sec

ASME Sec

MT of 100% machined surfaces

ASME Sec

ASME Sec

ASME Sec

Same as 6D

or no linear indications (sealing surfaces)

MT of weld bevels – weld ends

ASME Sec

ASME Sec

ASME Sec

Same as 6D

LP of castings – 100% accessible surface areas

ASME Sec

ASME Sec

ASME Sec

Same as 6D

or no linear indications (sealing surfaces)

LP of bolting

ASME Sec

ASME Sec

ASME Sec

Same as 6D

LP of 100% machined surfaces

ASME Sec

ASME Sec

ASME Sec

Same as 6D

or no linear indications (sealing surfaces)

LP of weld bevels – weld ends

ASME Sec

ASME Sec

ASME Sec

Same as 6D

VT of castings – surfaces

MSS-SP-55

Same as 6D

Type 1 – none acceptable

Type 2 to 12 – A & B

Type 1,

A and B

VT of forgings and plate – surfaces

As required by ASTM Product Spec

As required by ASTM Product Spec

VT of weldments

ASME Sec

Complete joint penetration on Pressure Containing Welds

or Undercuts should not reduce thickness in area to below minimum thickness

or Surface porosity and exposed slag not permitted on or within 45mm of seating surfaces

VT of others – 100% surfaces

ASME Sec

No visible defects

Documented procedures

Same as 6D

or when specified by Customer – PT – ASME Sec

Documented procedures

Same as 6D

or when specified by Customer – PT – ASME Sec

UW51 (linear indications) or ASME Sec

App 4 (rounded indications)

ASTM A 578

Repair welds – defect removals

Repair welds – pressurecontaining parts

MT or PT

MT or PT

Same as 6D

or when specified by Customer – PT per ASME Sec

Same as 6D

or when specified by Customer – PT

- ASME Sec

- ASME Sec

- ASME Sec

- ASME Sec

NDE Requirement – API 6D (when specified) and API 6DSS (mandatory) Personnel Qualification

API 6DSS

ISO 9712 or ASNT SNT-TC-1A

ISO 9712 or ASNT SNT-TC-1A

Welding Inspectors

AWS QC1,

equivalent or Mfrs documented training program

AWS QC1

Visual Inspectors

Annual eye exam per ISO 9712 or ASNT SNT-TC-1A

QUALITY CONTROL

Minimum Bore Required for Full-Port Valves Nominal Size

Minimum Bore (mm)

PN 20 ~ 100 (Class 150 ~ 600)

PN 150 (Class 900)

PN 250 (Class 1500)

PN 420 (Class 2500)

Minimum Bore Size for Bypass,

Drain and Vent Connections Nominal Valve Size DN

Connection Size mm (inch)

50 ~ 100

15 (½)

150 ~ 200

20 (¾)

Valve Flanged Ends End flanges are furnished with raised face (RF) or ring-joint face (RTJ)

Dimensions,

tolerances and finishes are in accordance with: • ASME B16

• MSS SP-44 for DN 550 (NPS 22),

Valve Weld Ends Weld ends conform to Fig

4 or Fig

In case of heavy walled valve body,

the outside profile may be tapered at 30 degrees and then 45 degrees as illustrated in Fig

MARKING and FINAL INSPECTION

Section 13 and Table 12 of Specification 6D specify marking instructions and the checklist below describe marking/inspection for monogrammed equipment: API Monogram Product Checklist Customer:

Sales Order:

Valve Description:

Serial Number:

A re manufacturer’s name or trademarks identified on body and nameplate

Are pressure class identified on body and nameplate

Are  pressure/temperature rating identified on nameplate

? a) Maximum operating pressure at maximum operating temperature b) Maximum operating pressure at minimum operating temperature

Are face-to-face/end-to-end dimension identified on nameplate

A  re body material designation identified on body and nameplate

? Are cast and heat melting identification identified on body,

ASME,ASTM

NOTE: When body is fabricated of more than one type of steel,

the end connection material governs marking

Pass Pass

Fail Fail

A  re trim identification identified on nameplate

? Symbols indicating material of stem and sealing faces of closure members if different from that of body

Note: MSS SP-25 gives guidance on marking

A  re nominal valve size identified on body or nameplate or both as practicable

? a) Full-opening valves: nominal valve size b) Reduced-opening valves: shall be marked as specified in 6

Are ring joint groove number identified on valve flange ends

A  RE SMYS and minimum wall thickness identified on valve body weld bevels

A  re flow direction (for check valves only) identified on body of unidirectional valve only

Are separate seat sealing direction identification plate on body

Are unique serial number identified on body and nameplate

A re date of manufacture (month and year) identified on nameplate

Is ISO 14313 identified on 6D nameplate or ISO 14723 identified on 6DSS nameplates

A  re bonnet,

body and closures traceable to Heat Numbers

? Cover/Bonnet Heat #_______ Body Heat #_______ Closures (L/R) Heat #_______ /_______

I f body material is carbon steel,

do the MTR meet the chemistry requirements of API 6D clause 7

 If a weld repair was performed,

was NDE performed before and after repair,

is it documented and do results meet acceptance criteria

W  ere shell and seat test performed per API requirements

? Shell Test Pressure______ Time_____ Seat Test Pressure_____ Time_____ Double Block and Bleed____Seat Test Pressure_______ Time_______

Pass Pass Pass

Fail Fail Fail

Are valves drained and lubed

I f body/bonnet material is a non-corrosion resistant alloy,

has it been painted after hydrostatic test

Does valve meet API requirements

Checked by: Date: Pass

Note: For API monogrammed equipment,

the API monogram is also marked along with the license number of the API approved manufacturing facility

THE API MONOGRAM PROGRAM

Program Description The American Petroleum Institute administers the API Monogram Program as a service to the global oil and natural gas industry

The program is widely known for the API Monogram symbol,

which can be found physically marked on many products used in the industry today

The mark is a warranty by the licensed product manufacturer or service provider to the API and to the purchaser of the product,

that (a) the item complies in every aspect with the applicable API Product Specification in effect on the date of manufacture and (b) the item was manufactured in conformance with the manufacturer’s API-approved quality management system

API Product Standards and the API Monogram Program There are more than 70 API Specifications that are currently eligible for licensing under the API Monogram Program

These standards cover a wide variety of products and services used in the industry and are maintained by API’s internationally recognized standards organization to keep current with practices and technology used in the industry today

API Quality Management System The API Monogram Program quality management system is based on ISO 9001 with the addition of requirements that are of specific importance to the oil and natural gas industry

The quality management system is documented in API Specification Q1

The API Licensing Process Organizations may voluntarily apply to API for a license to produce and mark products with the official API Monogram

In the application process,

the organization must identify the API standard(s) it expects to conform to under the license,

which specific products/services within that standard will be included or excluded under the agreement and the physical location of the facility that will produce the product

Upon acceptance of the organization’s application,

API will (a) review the organization’s quality management system documentation for compliance with API Specification Q1

(b) perform an on-site audit of the implementation of the organization’s quality management system and (c) conduct and on-site evaluation of the organization’s capability to produce products in compliance with the applicable API specification(s)

If approved,

the organization will be issued a numbered license granting it the right to use the API Monogram for a period of three years,

during which time the organization may be subject to additional,

Using the API Monogram Under the license agreement,

the organization may not physically mark any product with the API Monogram that does not fully conform with the applicable API Standard and/or if the product manufacture deviated from the licensed organization’s quality management system

For each use of the API Monogram,

the organization is also required to mark the unique license number issued by the API adjacent to the monogram,

which is traceable to the individual API-licensed facility that produced the product

THE API MONOGRAM PROGRAM

For more information,

contact your local Cameron representative

Cameron • P

Box 1212 • Houston,

TX 77251-1212 • Tel: 1

8511 www

API SPECIFICATION Q1 (ISO 29001)

API Specification Q1 (ISO 29001) is intended to be used in conjunction with international oil and gas product standards by internationally licensed manufacturers

Used in this manner,

API Specification Q1 delivers significant value to the industry by providing a cohesive link between the accreditation of a manufacturer’s quality system and their ability to provide products meeting industry and customer requirements

API Specification Q1 differs from generic quality systems (e

ISO 9001) by its role in the voluntary licensing of manufacturers to provide oil and gas industry products in accordance with API specifications

API licenses are only issued after an on-site survey has confirmed that the licensee adheres to the requirements of both the quality system standard API Specification Q1 and the requirements of an international oil and gas product specification recognized by the oil and gas industry and API

In contrast,

generic quality system requirements are normally intended to be applied to any industry or product through contractual agreements with or without industry standards or specifications

API Specification Q1 includes the basic quality management system requirements of ISO 9001 and is also published as ISO 29001

API and ISO ACCREDITATIONS

Cameron is proud to maintain API and ISO accreditations at many manufacturing and CAMSERV™ repair facilities

In fact,

Cameron holds one of the largest number of API licenses in the industry

These accreditations,

only make up a part of Cameron’s commitment to quality

We invite you to contact your local Cameron representative and review our commitment to quality in detail

Plant Location

State/Country

API Licenses

ISO 9001 Certifications

Deer Park

Australia

Shanghai Moqiao

Shanghai Songjian

Weifang City,

Shandong

Batam Island

Indonesia

Indonesia

Malaysia

Selangor Muscat

Malaysia

Al Rushaid

Saudi Arabia

Jubail (JV)

Saudi Arabia

Singapore

Singapore

Abu Dhabi

Bonor Regis

England

England

Newmarket

England

Rugby/Sunbury

England

Tunbridge Wells,

England

Beziers

Germany

Longford

Ireland

Voghera

Hoogezand

Netherlands

Onne Port

Nigeria

Port Harcourt

Nigeria

Stavanger

Campina

Romania

Ploiesti

Romania

Aberdeen

Scotland

Calgary (10th St NE)

Calgary (Farrell Rd SE)

Edmonton

Edmonton (3707-97 St) Edmonton (5003-93rd St)

Quality Policy Statement Cameron is committed to customer satisfaction by providing superior products and services that conform to agreed-upon requirements,

through employee involvement in the quality management system and a process of continual improvement

Plant Location

State/Country

API Licenses

ISO 9001 Certifications

Little Rock

Arkansas

City of Industry

California

Grand Junction

Colorado

Berwick

Louisiana

Hammond

Louisiana

New Iberia

Louisiana

Ville Platte

Louisiana

Millbury

Massachusetts

Buffalo

New York

Oklahoma

Oklahoma

Oklahoma City (18th St)

Oklahoma

Oklahoma City (33rd St)

Oklahoma

Oklahoma City (7500 SW 29th St)

Oklahoma

Oklahoma City (845 SE 29th St)

Oklahoma

Electra

Houston (11327 Tanner Rd)

Houston (11331 Tanner Rd)

Houston (4646 W Sam Houston Pkwy N)

Houston (6650 Bingle Rd)

Houston (Equity Drive)

Houston (JFK Blvd)

Houston (Port Northwest Drive)

Houston (Thomas Rd,

Bldg G)

Odessa (2500 Steven Road)

Odessa (Rasco Ave)

Wyoming

Argentina

Simões Filho

Bahia / Brazil

Taubate

Veracruz

Maracaibo

Venezuela

HEADQUARTERS

BARTON CALDON CLIF MOCK JISKOOT LINCO NUFLO PAAI

DISTRIBUTED VALVES

AFTERMARKET SERVICES

DEMCO NAVCO NEWCO NUTRON OIC TECHNO TEXSTEAM THORNHILL CRAVER TOM WHEATLEY WHEATLEY WKM

CAMSERV

Suite 300 Houston,

Texas 77042,

USA Tel: 1

ENGINEERED & PROCESS VALVES CAMERON ENTECH FOSTER GENERAL GROVE ORBIT RING-O TBV TEXSTEAM TK TOM WHEATLEY WKM FLOW CONTROL CAMERON DYNATORQUE LEDEEN MAXTORQUE SSS TEST WILLIS

MANUFACTURING LOCATIONS Alvin,

USA Bognor Regis,

UK Caldon,

USA Calgary,

Canada City of Industry,

USA Colico,

Italy (†) Duncan,

USA Edmonton,

Canada (†) Hammond,

USA (†) Harvey,

USA Houston,

USA (†) Jacarei,

Brazil Jiskoot,

UK Kilgore,

USA Little Rock,

USA (†) Longford,

Ireland (†) Midland,

USA Millbury,

USA Muskegon,

USA Odessa,

USA Oklahoma City,

USA (†) Port Harcourt,

Nigeria (†) Ville Platte,

USA (†) Voghera,

Italy (†) Weifang,

China (†) Songjian,

China (†) Yancheng,

XCELLEN LE CE TA

TH SAFETY AL A HE

ENVIRONME N

(†) API Registered Locations WAREHOUSE/AFTERMARKET SERVICES

MEASUREMENT SYSTEMS

Benicia,

USA Bethlehem,

USA Casper,

USA Chengdu,

China Chetwynd,

Canada Corpus Cristi,

USA Deerpark,

USA Edmonton,

USA Houston,

USA (‡) Jakarta,

Indonesia Jebel Ali,

UAE (‡) Lafayatte,

USA Lancaster,

USA Melbourne,

Australia New Market,

UK (‡) Mobile,

USA Odessa,

USA Oklahoma City,

USA Port Allen,

USA Sarnia,

Canada Stafford,

USA (‡) Torrance,

USA Ville Platte,

USA (‡)

HSE Policy Statement At Cameron,

financially and personally to a working environment where no one gets hurt,

© 2012 Cameron | SWP 1M | 04/12,

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