Piping Typical Installation Drawings

KG-DWN-98/2 PRE-FEED

PIPING TYPICAL INSTALLATION DRAWINGS

Level 18, Menara AIA Cap Square No. 10 Jalan Munshi Abdullah Kuala Lumpur 50100

Malaysia

Document No.: 402020-01391-06-PI-DID-0001

Revision No.: Revision 0

HOLDS List HOLD No. Section No. & Revision Inserted Description of HOLD

Table of Contents

1

SCOPE ... 5

1.1

Project Overview ... 5

1.1.1 Odalarevu Facilities ... 7

1.1.2 KG-DWN-98/2 CPP ... 7

1.1.3 KG-DWN-98/2 LQUP ... 7

1.2

Purpose of Document ... 7

1.3

Definitions ... 8

1.4

Project References ... 8

1.4.1 Project References ... 8

1.5

Codes and Standards ... 9

1.5.1 Table of Codes / Standards ... 9

1.5.2 COMPANY Functional Specifications ...13

1.5.3 Units ...14

1.5.4 Order of Precedence ...15

1.6

Abbreviations and Acronyms ... 15

Appendix List

APPENDIX 1:

LIST OF DRAWINGS (PIPING TYPICAL INSTALLATION) ... 18

1

SCOPE

1.1

Project Overview

ONGC intends to develop the New Exploration Licensing Policy (NELP) Block KG-DWN-98/2, in deep waters off the east coast of India. The discovery areas in the block have been categorized as Northern Discovery Area (NDA) and Southern Discovery Area (SDA). The scope of the present development is limited to Cluster 2 of NDA only.

A location map identifying the KG-DWN 98/2 development area is presented as Figure 1.1.

The KG-DWN 98/2 block is located within 25-40 km of the nearest land-fall, and is adjacent to RIL’s KG-D6 field and GSPC’s Deendayal field. The water depth in this block varies between 300 metres and 3,200 metres.

Figure 1.1 : Block KG-DWN-98/2 Development Area

The fields discovered in the area comprise of a number of oil and gas discoveries, and are spread over a large area. Each field has technical challenges such as high wax, hydrates and sand production.

 Cluster 2

− Mix of oil and gas, located in the south of NDA, includes the following fields :

− Oil fields (Cluster 2A) – A-2; P-1; M-3, M-1; M-4 and DWN-G-2-2.

− Gas fields (Cluster 2B) – DWN-R-1; DWN-U-3; DWN-U-1 and DWN-A. This study assumes a phased development:

 Phase 1 : Cluster 2B (gas); and

 Phase 2 : Cluster 1 (oil and gas) for future provision. Cluster 1

The CPP and LQUP facilities have been selected by ONGC to produce the oil, gas and condensate reserves from the area known as Cluster 1 within the NDA. This initial development will consist of the following wells which are located in water depths ranging from 80m to 650m:

Well Designation Type

DWN-D-1 Gas Producer

DWN-E-1 Gas/Condensate Producer DWN-F-1 Oil/Gas Producer GS-29-5A Gas Producer

GS-29-6 Oil/Gas Producer GS-29-6-WI-A Water Injector

GS-29-7 Oil/Gas Producer GS-29-7-WI-A Water Injector

GS-29-10 Oil/Gas Producer

Additional processing facilities are envisaged on the CPP for the Cluster 1 reserves consisting of 3 stages of separation with associated gas compression prior to commingling with the Cluster 2B gas stream into the TEG dehydration unit for export to the Onshore Gas Terminal at Odalarevu. The Cluster 1 oil production will be exported to the nearby Ravva Terminal via a 6” 25km pipeline. First production from the Cluster 1 fields is currently unknown, however, preliminary sizing will be completed to enable the provision of space to be made on the CPP and LQUP to accommodate this development.

1.1.1

Odalarevu Facilities

There is an existing terminal at Odalarevu, and coordinates for the existing G-1 “straight” 10” export flowline shore crossing is shown in Figure 1.2.

Figure 1.2: Odalarevu Terminal and 10” Pipeline Shore Crossing

Note the coordinates are based on Everest 1830, UTM Zone 44.

1.1.2

KG-DWN-98/2 CPP

The KG-DWN-98/2 CPP is envisaged as a shallow water fixed platform (< 100 m) proximal to the existing ONGC fields. The CPP will process well fluid from Cluster 2B Gas fields (R1, U3, U1, and A1) and Cluster 1 Oil (F1, GS-29-6, GS-29-7 and GS-29-10) and Gas fields (D1, E1 and GS-29-5)

received through infield subsea pipelines. Process and most utility facilities required will be housed on the CPP, which will be bridge connected to a separate LQUP. Basic facilities envisaged on the CPP are described in subsequent sections of the design basis.

1.1.3

KG-DWN-98/2 LQUP

The KG-DWN-98/2 LQUP will house a 100 people living quarter module along with utility systems. The Living Quarter platform is bridge connected CPP. The platform is constructed as a shallow water fixed platform with cellar deck; LQ building module and switch gear/Emergency Power Generation building module on main deck.

1.2

Purpose of Document

The purpose of this document is to define Piping Typical Installation Drawings for the KG-DWN 98/2 Pre-FEED Phase that will comply with ONGC’s best practices for safe and responsible operations.

1.3

Definitions

For the purpose of this document, the following definitions shall apply.

Term Definition

COMPANY

COMPANY or “Owner” shall mean ONGC, its affiliated companies, partners, co-lessees, co-owners, joint ventures, and their agents, third party inspectors, officers, and employees.

CONTRACT Where referenced shall mean COMPANY’S written and executed contract with the CONTRACTOR.

CONTRACTOR

Also referred to as “Vendor”, “Seller” or “Supplier” shall mean the party to whom COMPANY’S Purchase Order, Work Order, or other written CONTRACT is awarded.

Construction Where referenced, shall mean those processes that produce the equipment, including manufacture, fabrication, assembly, and testing. May Indicates possible course of action.

Safety Critical Element

Any assembly or sub-assembly deemed to be critical to the safety, integrity and performance of the subsea production system.

Shall Indicates mandatory requirement. Should Indicates preferred course of action.

Sub-Contractor

The person, group or organization who may be employed by CONTRACTOR (or subcontractor in reference to a supply chain) to provide services for the design, manufacture, testing and load-out / shipping of the equipment, or, to provide materials, sub- components and sub-assemblies for incorporation in the specified equipment.

Will Indicates an intention of action.

Work The scope of work to be performed per the CONTRACT.

1.4

Project References

The following are the key Project references:

1.4.1

Project References

Ref No.

Document Number Document Title Rev.

1.5

Codes and Standards

The piping system shall be designed, selected and engineered in accordance with latest editions of the following main codes/standards/recommended practices together with all current applicable Regulations except as modified by this Design Basis and the functional specifications.

1.5.1

Table of Codes / Standards

All Code and Standards shall be using latest revision.

Item No. Code / Standard Number Description

American Society of Mechanical Engineers (ASME)

1 ASME B31.3 Process Piping

2 ASME B31.4 Pipeline Transportation Systems for Liquid and Slurries 3 ASME B31.8 Gas Transmission and Distribution Piping Systems 4 ASME B1.1 Unified Inch Screw Threads

5 ASME B1.20.1 Pipe Threads, General Purpose (Inch)

6 ASME B16.5 Pipe Flanges and Flanged Fittings NPS ½ through NPS 24 Metric / Inch Standard

7 ASME B16.9 Factory-Made Wrought Steel Buttwelding Fittings 8 ASME B16.10 Face-to-Face and End-to-End Dimensions of Valves 9 ASME B16.11 Forged Fittings, Socket-Welding and Threaded

10 ASME B16.20 Metallic Gaskets for Pipe Flanges Ring-Joint, Spiral Wound, and Jacketed

11 ASME B16.21 Nonmetallic Flat Gaskets for Pipe Flanges 12 ASME B16.25 Buttwelding Ends

13 ASME B16.34 Valves- Flanged, Threaded, and Welding End

Item No. Code / Standard Number Description

15 ASME B16.47 Large Diameter Steel Flanges NPS 26 through NPS 60 Metric / Inch Standard

16 ASME B16.48 Line Blanks

17 ASME B16.49 Factory-Made, Wrought Steel, Buttwelding Induction Bends for Transportation and Distribution Systems

18 ASME B18.2.1 Square, Hex, Heavy Hex, and Askew Head Bolts and Hex, Heavy Hex, Hex Flange, Lobed Head, and Lag Screws (Inch Series)

19 ASME B 18.2.2 Nuts for General Applications: Machine Screw Nuts, Hex, Square, Hex Flange, and Coupling Nuts (Inch Series)

20 ASME B36.10M Welded and Seamless Wrought Steel Pipe 21 ASME B36.19M Stainless Steel Pipe

22 ASME SEC.VIII Pressure vessel code

23 ASME SEC.IX Welding and brazing qualifications

American Petroleum Institute (API)

1 API SPEC 5L Specification for Line Pipe

2 API SPEC 6D Specification for Pipeline Valves

3 API SPEC 6A Specification for Wellhead and Christmas Tree Equipment

4 API SPEC 6FA Specification for Fire Test for Valves

5 API RP 14E Recommended Practice for Design and Installation of Offshore Production Platform Piping Systems

6 API RP 14G Recommended Practice for Fire Prevention and Control on Fixed Open Type Offshore Production Platforms

7 API RP 14J Recommended Practice for Design and Hazards Analysis for Offshore Production Facilities

Item No. Code / Standard Number Description

9 API STD 598 Valves Inspection and Testing

10 API STD 600 Steel Gate Valves - Flanged and Butt-welding Ends, Bolted Bonnet

11 API STD 602 Steel Gate, Globe, and Check Valves for Sizes NPS 4 (DN 100) and Smaller for Petroleum and Natural Gas Industries

12 API STD 607 Fire Test for Quarter-turn Valves and Valves Equipped with Nonmetallic Seats

13 API STD 609 Butterfly Valves: Double-flanged, Lug- and Wafer-type

British Standards (BS)

1 BS 1873

BS 1873 Specification for Steel Globe and Globe Stop and Check Valves (Flanged and Butt-welding Ends) for Petroleum, Petrochemical, and Allied Industries

2 BS 1868 Specification for Steel Check Valves (Flanged and Butt-welding Ends) for Petroleum, Petrochemical, and Allied Industries

3 BS EN 12266-1 Industrial Valves- Testing of Metallic Valves Part 1: Pressure Test, Test Procedures and Acceptance Criteria - Mandatory Requirements

4 BS EN 12266-2 BS EN 12266-2 Industrial Valves- Testing of Metallic Valves Part 2: Tests, Test Procedures and Acceptance Criteria Supplementary Requirement

International Standardization Organization (ISO)

1 ISO

17292 Metal Ball Valves for Petroleum, Petrochemical, and Allied Industries 2 ISO

15761

Steel Gate, Globe, and Check Valves for Sizes (DN 100) and Smaller for Petroleum and Natural Gas Industries

3 ISO 10434

ISO 10434 Bolted Bonnet Steel Gate Valves for the Petroleum, Petrochemical and Allied Industries

4 ISO 14313

ISO 14313 Petroleum and Natural Gas Industries- Pipeline Transportation Systems - Pipeline Valves

Manufacturers Standardization Society (MSS)

1 MSS

SP-25 MSS SP-25 Standard Marking System for Valves, Fittings, Flanges, and Unions 2 MSS

SP-44 Steel Pipeline Flanges 3 MSS

SP-75 Specification for High-Test, Wrought, Butt-Welding Fittings 4 MSS

SP-97

Integrally Reinforced Forged Branch Outlets Fittings- Socket Welding, Threaded, and Buttwelding Ends

5 MSS

National Association of Corrosion Engineers

1 NACE MR 01-75 /ISO 15156-1/2/3

Material for use in H2S containing environments in Oil and Gas production.

Part-1: General principal for selection of cracking Resistant material. Part-2: Cracking resistant carbon and low carbon Steels and the use of cast irons.

Part-3: Cracking resistant CRAs (corrosion Resistant alloys) and other alloys.

2 NACE TM-01-77 Laboratory-Testing of metals for resistance to sulfides cracking and stress corrosion cracking in H2S environments.

3 NACE TM-02-84 Evaluation of pipeline and pressure vessel steels for resistance to hydrogen induced cracking.

American Society of Testing and Materials (ASTM)

ASTM Handbook various volumes for material specifications

1.5.2

COMPANY Functional Specifications

The equipment under this design basis shall also be designed, manufactured and tested in accordance with the requirements of the following COMPANY functional specifications:

Ref No.

Document Number Document Title Rev.

1 FS 2004A Functional Specification for Piping Design (Spec. 2004A) Rev-07

2 Vol No. II 3.3 Piping Design Criteria Section Vol No. II 3.3 Rev-03

3 FS 2004B Functional Specification for Piping Fabrication & Installation (spec. 2004-B) Rev-03

4 FS 2004D Functional Specification for Piping Specialties (spec. 2004–D) Rev-04

5 FS 2005 Functional Specification for Protective Coating (spec. 2005) Rev-03

6 FS 2006 Functional Specification for Piping &

Equipment Insulation (spec. 2006) Rev-02 7 FS 2009F Functional Specification for Welding & NDT

(spec.2009F) Rev-06

Ref No.

Document Number Document Title Rev.

9 2008 Piping Material Specification (Spec. 2008) Rev-03

FS 3700 Functional Specification for Control Valve 10 FS 3701 Functional Specification for Safety Relief Valve

1.5.3

Units

The international SI systems of unit shall be used except for the following items:

Flanges shall be rated in accordance with ASME standards. Ratings shall be expressed dimensionless as used in ASME piping codes (e.g. Class 150, Class 300, etc,). Flange bolting shall be specified as inches diameter x mm length (e.g. 5/8’ dia. X 200mm long). NPS, followed by a dimensionless number is the designation for nominal flange or flange fitting size. NPS is related to the reference nominal diameter, DN, used in international standards.

Parameters Unit Symbol

Length Millimetre / Meter mm / m

Pressure Bar gauge / Bar absolute Barg / bara

Temperature Degree Celsius °C

Volume Cubic meter m3

Barrels bbls

Pipe Diameter Inches “

1.5.4

Order of Precedence

In event of any conflict of requirements between project documentations and referenced codes and standards, the order of precedence shall be as follows: -

 National statutory requirements(the Law of the land)

 The scope of work(Description of work)

 P&ID

 Data Sheets, Job specifications

 Design Criteria.

 General Specifications / Functional Specifications.

 Industry Codes and Standards.

However, any conflicts shall be brought to the notice of the COMPANY and decision of the COMPANY in this regard shall be final and shall govern the design.

1.6

Abbreviations and Acronyms

For the purposes of this document the following abbreviations and acronyms shall apply:

Term Definition

AL-NI Aluminium Nickel

ANSI American National Standards Institute API American Petroleum Institute

ASME American Society of Mechanical Engineers ASTM American Society for Testing and Materials AWS American Welding Society

BOD Basis Of Design

BPD Barrels Per Day

BS British Standards

CA Corrosion Allowance

CAPEX Capital Expenditure

CO2 Carbon Dioxide

CPVC Chlorinated Polyvinyl Chloride CPP Central Processing Platform CRA Corrosion Resistant Alloy

Term Definition

CS Carbon Steel

CS (Galv) Galvanised Carbon Steel DSS Duplex Stainless Steel

EEMUA Engineering Equipment and Materials Users Association

EPCIC Engineering, Procurement, Construction, Installation & Commissioning FEED Front End Engineering Design

FPSO Floating Production, Storage and Offloading (Vessel)

GA General Arrangement

HAZID Hazard Identification HAZOP Hazard and Operability

HSE Health, Safety and Environment HUC Hook Up and Commissioning

HVAC Heating, Ventilation and Air Conditioning

ID Internal Diameter

IS Indian Standard

ISO International Standards Organization

LQ Living Quarters

LQUP Living Quarters & Utility Platform

mm Millimetre

MMSCFD Million Standard Cubic Feet per Day NACE National Association of Corrosion Engineers NFPA National Fire Protection Association

ONGC Oil and Natural Gas Corporation Ltd OSHA Occupational Safety and Health Act PFD Process Flow Diagram

P&ID Piping and Instrumentation Diagram

PVC Polyvinyl Chloride

PWHT Post Weld Heat Treatment

SS Stainless Steel

Term Definition

APPENDIX 1: LIST OF DRAWINGS

No. Title Drawing No. Sheet No.

Rev No.

1 TEMPERATURE INSTRUMENT / TRANSMITTER ON PIPING (ASME CLASS 150/300/600 RF), (TI / TT)

402020-01391-06-PI-DW-0001 1 OF 27 0

2 TEMPERATURE INSTRUMENT / TRANSMITTER ON PIPING (ASME CLASS 900/1500 RTJ), (TI / TT)

402020-01391-06-PI-DW-0001 2 OF 27 0

3 TEMPERATURE INSTRUMENT / TRANSMITTER ON PIPING (ASME CLASS 900/1500 RTJ), (TI / TT)

402020-01391-06-PI-DW-0001 3 OF 27 0

4 TEMPERATURE INSTRUMENT / TRANSMITTER ON PIPING (ASME CLASS 2500 RTJ), (TI / TT)

402020-01391-06-PI-DW-0001 4 OF 27 0 5 TEMPERATURE INSTRUMENT/TRANSMITTER ON VESSEL (TI/TT) 402020-01391-06-PI-DW-0001 5 OF 27 0

6 HOSE STATIONS (NITROGEN, UTILITY AIR, SEAWATER & POTABLE WATER)

402020-01391-06-PI-DW-0001 6 OF 27 0

7 HOSE STATIONS (UTILITY WATER, SEAWATER & POTABLE WATER)

402020-01391-06-PI-DW-0001 7 OF 27 0

8 FABRICATED BLEED RING (ASME CLASS 150/300/600 RF)

402020-01391-06-PI-DW-0001 8 OF 27 0

9 FABRICATED BLEED RING (ASME CLASS 900/1500 RTJ)

402020-01391-06-PI-DW-0001 9 OF 27 0

10 JACKSCREW FOR SPECTACLE BLIND RTJ FEMALE (CLASS 900/1500/2500 RTJ)

402020-01391-06-PI-DW-0001 10 OF 27 0 11 ORIFICE FLANGE ASSEMBLY (ASME CLASS

300/600/900) NOM. SIZE DN50 TO DN600

402020-01391-06-PI-DW-0001 11 OF 27 0 12 ORIFICE FLANGE ASSEMBLY (ASME CLASS

1500/2500) NOM. SIZE DN50 TO DN600

402020-01391-06-PI-DW-0001 12 OF 27 0 13 Y-TYPE STRAINER CLASS 150 & 300

402020-01391-06-PI-DW-0001 13 OF 27 0 14 BUCKET TYPE STRAINER CLASS 150

402020-01391-06-PI-DW-0001 14 OF 27 0 15 SIEVE FOR Y-STRAINER

402020-01391-06-PI-DW-0001 15 OF 27 0 16 SPECTACLE BLINDS FOR ANSI FLANGES

402020-01391-06-PI-DW-0001 16 OF 27 0 17 LAP JOINT STUB-END (RING TYPE FOR ANSI

FLANGES CLASS 150& 300)

402020-01391-06-PI-DW-0001 17 OF 27 0 18 TEMPORARY STRAINER FOR COMPRESSOR

19 SPADE BLINDS FOR ASME FLANGES

402020-01391-06-PI-DW-0001 19 OF 27 0 20 SPACER FOR ASME FLANGES FOR _{REPLACEMENT OF SPADES} 402020-01391-06-PI-_DW-0001 20 OF 27 0 21 FLANGED THERMOWELL, RING JOINT ASME

CLASS 900 & 1500

402020-01391-06-PI-DW-0001 21 OF 27 0 22 FLANGED THERMOWELL, RING JOINT ASME _{CLASS 2500} 402020-01391-06-PI-_DW-0001 22 OF 27 0 23 HIGH PRESSURE WELDING THERMOWELL FOR

PIPING SYSTEM DN50

402020-01391-06-PI-DW-0001 23 OF 27 0 24 FLANGED THERMOWELL DN40 ASME CLASSES _{UP TO 1500 INCL} 402020-01391-06-PI-_DW-0001 24 OF 27 0 25 FLANGED THERMOWELL DN40 ASME CLASSES

UP TO 2500 INCL

402020-01391-06-PI-DW-0001 25 OF 27 0 26 SAMPLE SYSTEM CONNECTION 402020-01391-06-PI-_DW-0001 26(1) OF 27 0 27 SAMPLE SYSTEM CONNECTION

402020-01391-06-PI-DW-0001 26(2) OF 27 0 28 SAMPLE SYSTEM CONNECTION 402020-01391-06-PI-_DW-0001 26(3) OF 27 0 29 SAMPLE SYSTEM CONNECTION

402020-01391-06-PI-DW-0001 26(4) OF 27 0 30 PIPE PENETRATION, NON FIRE RATED 402020-01391-06-PI-_DW-0001 27 OF 27 0

APPENDIX 2: DETAIL DRAWINGS

2

3

4

_{1 SET}

4

3

2

1

THERMOWELL

3

2

1

THERMOWELL

*

INSTR

PIPING

HEADER -DN100 & ABOVE

DN40

DN40

1

1

INSTR

PIPING

DN 100 X DN40

TW

TW

FLANGOLET (RF)

SPIRALWOUND GASKET

STUDBOLTS & NUTS

1

FLANGOLET (RF)

2

3

DN40

1

1

1 SET

DN40

HEADER X DN40

SPIRALWOUND GASKET

STUDBOLTS & NUTS

*

NOTES;

MATERIAL USED SHALL BE IN ACCORDANCE WITH THE PIPING MATERIAL SPECIFICATIONS.

:THERMOWELL WILL BE SUPPLIED BY INSTRUMENT.

(ASME CLASS 150/300/600 RF) (TI/TT)

TEMPERATURE INSTRUMENT/

2

3

4

_{1 SET}

4

3

2

1

THERMOWELL

3

2

1

THERMOWELL

*

INSTR

PIPING

HEADER -DN100 & ABOVE

DN40

DN40

1

1

INSTR

PIPING

DN 100 X DN40**

TW

TW

FLANGOLET (RTJ)

RING TYPE GASKET

STUDBOLTS & NUTS

1

FLANGOLET (RTJ)

2

3

DN40

1

1

1 SET

DN40

HEADER X DN40**

RING TYPE GASKET

STUDBOLTS & NUTS

*

NOTES;

MATERIAL USED SHALL BE IN ACCORDANCE WITH THE PIPING MATERIAL SPECIFICATIONS.

:THERMOWELL WILL BE SUPPLIED BY INSTRUMENT.

: PIPE WALL SHALL BE AS PER PIPING SPECIFICATION.

(ASME CLASS 900/1500 RTJ) (TI/TT)

TEMPERATURE INSTRUMENT/

2

3

4

₁

5

4

2

1

THERMOWELL

4

3

1

THERMOWELL

*

INSTR

PIPING

HEADER -DN100

DN50**

DN50

1

1

INSTR

PIPING

DN100 x DN50 **

TW

TW

REDUCING TEE

WELDNECK FLANGE (RTJ)

RING TYPE GASKET

*

5

STUDBOLTS & NUTS

3

1 SET

DN50

1

2

3

₁

DN50**

DN50

1

1

DN100 x DN50**

REDUCING TEE

WELDNECK FLANGE (RTJ)

RING TYPE GASKET

4

STUDBOLTS & NUTS

1 SET

DN50

2

3

2

1

THERMOWELL

HEADER -DN150 & ABOVE

INSTR

PIPING

TW

1

FLANGOLET (RTJ)

2

3

DN50

1

1

1 SET

DN50

HEADER x DN50**

RING TYPE GASKET

STUDBOLTS & NUTS

*

NOTES;

MATERIAL USED SHALL BE IN ACCORDANCE WITH THE PIPING MATERIAL SPECIFICATIONS.

:THERMOWELL WILL BE SUPPLIED BY INSTRUMENT.

PIPE WALL SHALL BE AS PER PIPING SPECIFICATION.

(ASME CLASS 900/1500 RTJ) (TI/TT)

TEMPERATURE INSTRUMENT/

2

3

4

₁

5

4

2

1

THERMOWELL

4

3

1

THERMOWELL

*

INSTR

PIPING

HEADER -DN100

DN50

DN50

1

1

INSTR

PIPING

DN100 x DN50

TW

TW

REDUCING TEE

WELDNECK FLANGE (RTJ)

RING TYPE GASKET

*

5

STUDBOLTS & NUTS

3

1 SET

DN50

1

2

3

₁

DN50

DN50

1

1

DN100 x DN50

REDUCING TEE

WELDNECK FLANGE (RTJ)

RING TYPE GASKET

4

STUDBOLTS & NUTS

1 SET

DN50

2

3

2

1

THERMOWELL

HEADER -DN150 & ABOVE

INSTR

PIPING

TW

1

FLANGOLET (RTJ)

2

3

DN50

1

1

1 SET

DN50

HEADER x DN50

RING TYPE GASKET

STUDBOLTS & NUTS

*

ONLY APPLICABLE FOR 2500# PIPING CLASS

NOTES;

MATERIAL USED SHALL BE IN ACCORDANCE WITH THE PIPING MATERIAL SPECIFICATIONS.

:THERMOWELL WILL BE SUPPLIED BY INSTRUMENT.

(ASME CLASS 2500 RTJ) (TI/TT)

TEMPERATURE INSTRUMENT/

2

1

INSTR

MECH

TW

DN50

2

STUDBOLTS & NUTS

DN50

1 SET

1

RING TYPE GASKET

_DN50

₁

2

STUDBOLTS & NUTS

DN50

1 SET

150# TO 600#

900# TO 2500#

NOTES;

1) MATERIAL USED SHALL BE IN ACCORDANCE WITH THE PIPING MATERIAL SPECIFICATIONS.

TEMPERATURE INSTRUMENT/

TRANSMITTER ON VESSEL (TI/TT)

UTILITY

AIR

SEA

WATER

POTABLE

WATER

NITROGEN

MATERIAL:

STRUCTURAL MEMBERS : ASTM A36

PLATE

: ASTM A36 OR BETTER

U BOLTS

: 316 SS

WELDING :

SURFACE TREATMENT :

MARKING :

EACH SERVICE SHALL BE CLEARLY IDENTIFIED WITH AN

ENGRAVED LABEL, MINIMUM LETTERING SIZE 20mm. 316 SS

PLATE, 3mm THK ATTACHED WITH 316 SS FASTENERS.

ALL PAINTING AND SURFACE TREATMENT SHALL BE IN

ACCORDANCE WITH TML-OPS-GEN-SP-P-0006

4. FABRICATOR SHALL SUBMIT ALL DRAWING AND MATERIAL LISTS FOR TML APPROVAL

PRIOR TO COMMENCEMENT OF FABRICATION.

5. FABRICATOR SHALL ENSURE THAT ALL UTILITY STATIONS FIT WITHIN THE ALLOCATED

SPACE WITHOUT RESTRICTION ACCESS WAYS.

ALL WELDS TO BE CONTINUOUS 6mm FILLET. FOR STRUCTURAL

MEMBERS PLATE TO BE FULLY SEAL WELDED TO FRAME.

HOSE STATION (NITROGEN. UTILITY AIR,

SEAWATER & POTABLE WATER)

MATERIAL:

STRUCTURAL MEMBERS : ASTM A36

PLATE

: ASTM A36 OR BETTER

U BOLTS

: 316 SS

WELDING :

SURFACE TREATMENT :

MARKING :

UTILITY

AIR

SEA

WATER

POTABLE

WATER

EACH SERVICE SHALL BE CLEARLY IDENTIFIED WITH AN

ENGRAVED LABEL, MINIMUM LETTERING SIZE 20mm. 316 SS

PLATE, 3mm THK ATTACHED WITH 316 SS FASTENERS.

ALL PAINTING AND SURFACE TREATMENT SHALL BE IN

ACCORDANCE WITH TML-OPS-GEN-SP-P-0006.

4. FABRICATOR SHALL SUBMIT ALL DRAWING AND MATERIAL LISTS FOR TML APPROVAL

PRIOR TO COMMENCEMENT OF FABRICATION.

5. FABRICATOR SHALL ENSURE THAT ALL UTILITY STATIONS FIT WITHIN THE ALLOCATED

SPACE WITHOUT RESTRICTION ACCESS WAYS.

ALL WELDS TO BE CONTINUOUS 6mm FILLET. FOR STRUCTURAL

MEMBERS PLATE TO BE FULLY SEAL WELDED TO FRAME.

HOSE STATION (UTILITY WATER,

SEAWATER & POTABLE WATER)

DN25

108

27

51

127

48

73

152

60

92

342

219

270

279

168

216

228

114

157

190

89

127

406

273

324

635

457

534

597

406

470

533

356

413

482

324

381

698

508

584

985

762

857

925

711

794

870

660

743

813

610

692

NOM SIZE

A

B

C

123

27

51

155

48

73

165

60

92

381

219

270

317

168

216

254

114

157

209

89

127

444

273

324

711

457

534

648

406

470

584

356

413

520

324

381

775

508

584

1090

762

857

1035

711

794

970

660

743

914

610

692

NOM SIZE

A

B

C

123

27

51

155

43

73

165

55

92

419

212

270

355

162

216

273

108

157

209

83

127

508

265

324

743

448

534

686

397

470

603

346

413

588

315

381

813

479

584

1130

749

857

1075

699

794

1015

649

743

940

597

692

BOLT HOLE

DRILL THRU. TYP.

(NOTE 1)

FULL PENETRATION WELD

SEE

NOTE 7

MAX. BORE

DIAMETER 14MM

(FLANGED - END OUTLET)

R.F. END TO B 16.5

(NOTE 2)

B

C

A

75

6.4

A

ASME CLASS 300

ASME CLASS 600

DN40

DN50

DN80

DN100

DN150

DN200

DN250

DN300

DN350

DN400

DN450

DN500

DN600

DN650

DN700

DN750

DN25

DN40

DN50

DN80

DN100

DN150

DN200

DN250

DN300

DN350

DN400

DN450

DN500

DN600

DN650

DN700

DN750

DN25

DN40

DN50

DN80

DN100

DN150

DN200

DN250

DN300

DN350

DN400

DN450

DN500

DN600

DN650

DN700

DN750

MARKING;

BLEED RINGS SHALL BE LOW STRESS DIE STAMPED ON OUTSIDE DIAMETER.

1. NOMINAL SIZE.

2. PRESSURE RATING.

3. MATERIAL SPECIFICATION & GRADE.

4. HEAT NUMBER.

5. MANUFACTURERS NAME.

MATERIAL;

PIPE MATERIAL

_{BLEED RING MATERIAL WELDED OLET MATERIAL}

A106 GR B

A333 GR 6

A312 316L

A 516 60N

A 516 60N

A 240 TP316

A 240 S31803

A 105N

A 350 LF2

A 182 F316

A 182 F51

1. DIMENSIONS FOR BOLT HOLES (SIZE NUMBER & BOLT CENTRE)

AS PER ASME B16.5 FOR DN25-DN600 AND ASME B 16.47

SERIES A FOR DN650-DN750.

2. THE COMPONENTS SHALL BE SUITABLE & COMPATIBLE FOR

USE WITH THE PIPING CLASSES AS DEFINED IN

TML-OPS-GEN-SP-P-0007.

3. REFER TML-OPS-GEN-SP-P-0002 FOR ADDITIONAL

REQUIREMENT FOR MATERIALS.

4. BRANCH FITTING FLANGED OUTLET SHALL BE PURCHASED

WITH WELD LINE CLEARLY MARKED AND FITTING SHALL BE

FULLY CUT TO THE WELD LINE.

5. MATERIAL EXAMINATION AND CERTIFICATE REQUIREMENTS OF

MATERIAL SHALL BE AS PER TML-OPS-GEN-SP-P-0002 AS

APPLICABLE.

6. THE LISTED PLATE MATERIAL MAY BE SUBSTITUTED AT

PURCHASER'S DISCRETION WITH THE FORGED MATERIAL

LISTED FOR THE WELDED OUTLET.

7. SEAL FACE FINISH SHALL BE AS PER ASME B16.5 AND ASME

B16.47 SERIES A.

8. BREAK ALL SHARP EDGES.

9. TOLERANCES AS PER ASME B16.5/ASME B16.47.

10. WELD TO BE 100% DP OR MPI INSPECTED.

11. BLEED RING/NIPOFLANGE TO BE PREFERABLY DRILLED AFTER

WELDING, TO ENSURE ALIGNMENT.

A790 S31803

FABRICATED BLEED RING

(ASME CLASS 150/300/600 RF)

NOM SIZE

A

B

C

149

27

72

177

48

92

215

60

124

469

219

308

381

168

241

292

114

181

241

89

156

546

273

362

787

457

594

705

406

524

641

356

467

609

324

419

857

508

648

1230

762

946

1170

711

889

1085

660

832

1041

610

772

NOM SIZE

A

B

C

149

27

72

177

48

92

215

60

124

482

219

318

393

168

248

311

114

194

266

89

168

584

273

371

914

457

613

826

406

546

749

356

489

673

324

438

984

508

673

1168

610

794

BOLT HOLE

DRILL THRU. TYP.

(NOTE 1)

FULL PENETRATION WELD

MAX. BORE

DIAMETER 14MM

B

C

A

75

6.4

A

SEE

NOTE 7

ASME CLASS 900

ASME CLASS 1500

DN25

DN40

DN50

DN80

DN100

DN150

DN200

DN250

DN300

DN350

DN400

DN450

DN500

DN600

DN650

DN700

DN750

DN25

DN40

DN50

DN80

DN100

DN150

DN200

DN250

DN300

DN350

DN400

DN450

DN500

DN600

NOTES;

MARKING;

BLEED RINGS SHALL BE LOW STRESS DIE STAMPED ON OUTSIDE DIAMETER.

1. NOMINAL SIZE.

2. PRESSURE RATING.

3. MATERIAL SPECIFICATION & GRADE.

4. HEAT NUMBER.

5. MANUFACTURERS NAME.

MATERIAL;

PIPE MATERIAL

BLEED RING MATERIAL

WELDED OLET MATERIAL

A106 GR B

A333 GR 6

A312 316L

A 516 60N

A 516 60N

A 240 TP316

A 240 S31803

A 105N

A 350 LF2

A 182 F316

A 182 F51

1. DIMENSIONS FOR BOLT HOLES (SIZE NUMBER & BOLT CENTRE)

AS PER ASME B16.5 FOR DN25-DN600 AND ASME B 16.47

SERIES A FOR DN650-DN750.

2. THE COMPONENTS SHALL BE SUITABLE & COMPATIBLE FOR

USE WITH THE PIPING CLASSES AS DEFINED IN

TML-OPS-GEN-SP-P-0007.

3. REFER TML-OPS-GEN-SP-P-0002 FOR ADDITIONAL

REQUIREMENT FOR MATERIALS.

4. BRANCH FITTING FLANGED OUTLET SHALL BE PURCHASED

WITH WELD LINE CLEARLY MARKED AND FITTING SHALL BE

FULLY CUT TO THE WELD LINE.

5. MATERIAL EXAMINATION AND CERTIFICATE REQUIREMENTS OF

MATERIAL SHALL BE AS PER TML-OPS-GEN-SP-P-0002 AS

APPLICABLE.

6. THE LISTED PLATE MATERIAL MAY BE SUBSTITUTED AT

PURCHASER'S DISCRETION WITH THE FORGED MATERIAL

LISTED FOR THE WELDED OUTLET.

7. SEAL FACE FINISH SHALL BE AS PER ASME B16.5 AND ASME

B16.47 SERIES A.

8. BREAK ALL SHARP EDGES.

9. TOLERANCES AS PER ASME B16.5/ASME B16.47.

10. WELD TO BE 100% DP OR MPI INSPECTED.

11. BLEED RING/NIPOFLANGE TO BE PREFERABLY DRILLED AFTER

WELDING, TO ENSURE ALIGNMENT.

A790 S31803

FABRICATED BLEED RING

(ASME CLASS 900/1500 RTJ)

ASME CLASS

FLANGE RATING

CLASS 900

RTJ

CLASS 1500

RTJ

CLASS 2500

RTJ

L

D

L

D

L

D

140

3/4"

140

3/4"

150

3/4"

170

3/4"

190

3/4"

200

3/4"

220

3/4"

260

3/4"

270

3/4"

300

3/4"

320

3/4"

390

3/4"

3/4"

3/4"

3/4"

3/4"

3/4"

3/4"

3/4"

3/4"

3/4"

3/4"

3/4"

3/4"

140

3/4"

160

3/4"

170

3/4"

220

3/4"

250

3/4"

280

3/4"

330

3/4"

370

410

430

470

540

160

190

230

290

330

420

460

L

D

STANDARD FLANGE

DN50

DN80

DN100

DN150

DN200

DN250

DN300

DN350

DN400

DN450

DN500

DN600

DRILLING OF TWO HOLES FOR JACK SCREWS TO BE MADE ON SITE

BY ERECTION CONTRACTOR SO THAT SPECTACLE

BLIND/SPACER/PADDLE BLANK CAN BE CORRECTLY HANDLED

WITHOUT INTERFERING WITH OTHER LINES OR EQUIPMENT HOLES

SHALL BE TAPPED TO 3/4" UNC.

NOM.

SIZE

NOTES;

1. DIMENSIONS ARE IN MM UNLESS OTHERWISE INDICATED.

2. JACK SCREWS TO BE MADE OF BOLT MATERIAL ASTM A193 GR B7

(FLUORO CARBON COATED) AND THREADED OVER WHOLE LENGTH.

3. JACK SCREW SHALL HAVE HEXAGONAL HEAD AND THREADED TO

3/4" UNC (UNIFIED INCH COARSE SERIES).

4. FLANGES ACCORDING TO ASME B16.5 FOR DN50 TO DN600.

5. SCREWS LENGTH WILL DEPEND ON BLIND THICKNESS CALCULATED.

JACKSCREW FOR SPECTACLE BLIND

RTJ FEMALE (CLASS 900/1500/2500 RTJ)

REFER CLASS 600 8 K BORE 11.5 20 24 400 600 450 500 350 300 200 250 150 M24 180 150 160 140 M20 120 130 100 90 DIM.

CLASS 300 (RF)

JACK SCREW DATA

50 100 80 DN A NOM. SIZE D DIA. 80 LENGTH L 45o o 36 45 o 30o 45o ANGLE FLANGE TAPPING

SEE NOTE 5

A

NOTE 6

11.5 BORE 24 20 400 600 450 500 350 300 200 250 150 M24 240 200 190 180 M20 160 150 140 130 120 16

CLASS 600 (RF)

A DIM. 50 100 80 DN SIZE NOM. M16 D DIA. 100 80 LENGTH L JACK SCREW DATA

45o 36o 45o 30o 4 8 6 45o K ANGLE TAPPING FLANGE REFER CLASS 1500 400 600 450 500 300 350 150 200 250 190 M30 30 280 220 M24 24 170 180 120 140 150 DIM.

CLASS 900 (RTJ)

50 80 100 DN NOM. SIZE M20 20 A D DIA. 100 110 LENGTH L JACK SCREW DATA

36o 11.5 45o 30o ANGLE 8 6 45o K BORE FLANGE TAPPING CLASS 300, 600 AND 900 BORE SEE NOTE 4 SECTION A-A 220.0 +0.2 20 15 FULL PENETRATION

AFTER FINAL DRILLING

WELDING NIPPLE WELDING NIPPLE

PRIOR TO FINAL DRILLING WELD DETAIL HOLE FOR JACK SCREW WELDING NIPPLE 10 +0.2 0.0 90 45o 0.8 70 o 20 R=10 30 -0.1 +0.1 0.0 +0.2 (CLASS 300, 600 & 900) NOTE 7

TAPPING AND JACK BOLT DATA.

EXCEPT FOR FLANGE FACE FINISH, FLANGE

EACH FLANGE SHALL HAVE ONE TAPING AT

AS PER PIPING MATERIAL SPECIFICATION

ASME/ANSI B16.36 - "ORIFICE FLANGES"

IN ACCORDANCE WITH

IN MILLIMETRES.

DN 15 FLANGE

6.

:

TAPPINGS

FLANGE BORE

CLASS AND MATERIAL

5.

4.

3.

:

:

:

DESIGN

DIMENSIONS

2.

1.

:

:

AS PER PIPING MATERIAL SPECIFICATION

IF TWO TAPPINGS PER FLANGE REQUIRED, THE

POSITION SHALL BE DIAMETRICALLY OPPOSITE.

FLANGE TYPE & RATING AS PER PIPING MATERIAL

WELDED TO DN15 FLANGE.

7.

SPECIFICATION TML-OPS-GEN-SP-P-0007.

TML-OPS-GEN-SP-P-0007.

TML-OPS-GEN-SP-P-0007.

ANGLE UNLESS

NOM. SIZE DN50 TO DN600

ORIFICE FLANGE ASSEMBLY

400 600 500 450 350 300 250 200 150 260 M36 M30 36 30 360 300 320 M24 24 240 220 180 200 160

CLASS 1500 (RTJ)

DIM. 50 100 80 DN SIZE NOM. M20 M16 D DIA. 16 20 A 90 120 100 LENGTH L JACK SCREW DATA

45o 11.5 30o ANGLE 4 8 6 45 K BORE o TAPPING FLANGE SEE NOTE 5

A

NOTE 6 K BORE DIM.

JACK SCREW DATA

80 20 250 200 30 150 100 24 50 DN 16 A SIZE NOM. 6 130 M20 M30 M24 280 220 200 150 8 M16 D DIA. 100 L 4 LENGTH

CLASS 2500 (RTJ)

o 30o 45 FLANGE TAPPING ANGLE 11.5 0.0 +0.2 SECTION A-A

K

22

FULL PENETRATION WELD

CHAMFER 2 mm

CLASS 1500 AND 2500 D D+3 DETAIL 1.5D L

HOLE FOR JACK

SCREW WELDING NIPPLE

(FOR CLASS 1500 AND 2500)

0.0 +0.2 o 45 0.8 20o 30 R=10 +0.1 -0.1 +0.2 0.0 NOTE 7

SURFACE THROUGHOUT.

TAPPING AND JACK BOLT DATA.

EXCEPT FOR FLANGE FACE FINISH, FLANGE

EACH FLANGE SHALL HAVE ONE TAPING AT

AS PER PIPING MATERIAL SPECIFICATION

ASME/ANSI B16.36 - "ORIFICE FLANGES"

IN ACCORDANCE WITH

IN MILLIMETRES.

DN 15 FLANGE

6.

:

TAPPINGS

FLANGE BORE

CLASS AND MATERIAL

5.

4.

3.

:

:

:

DESIGN

DIMENSIONS

NOTES:

2.

1.

:

:

AS PER PIPING MATERIAL SPECIFICATION

IF TWO TAPPINGS PER FLANGE REQUIRED, THE

POSITION SHALL BE DIAMETRICALLY OPPOSITE.

FLANGE TYPE & RATING AS PER PIPING MATERIAL

WELDED TO DN15 FLANGE.

7.

SPECIFICATION TML-OPS-GEN-SP-P-0007.

TML-OPS-GEN-SP-P-0007.

TML-OPS-GEN-SP-P-0007.

ANGLE UNLESS

NOM. SIZE DN50 TO DN600

ORIFICE FLANGE ASSEMBLY

to piping material Material equivalent

DN 150 and above Lifting lug for flanges

DETAIL 1

Sieve as per DRG No. S 38.005

ALT. WELDING DETAIL

See note 3 Equal size See detail 1 and note 6 see detail 2 Drainpoint 10 Guiding rod.

SECTION A-A

A Flow direction

Equal wall thicknesses

See detail 1

Blind flange

VIEW - P

Space required for

Schedule 80 (S)

DETAIL 2

DN 20 retraction of sieve 28 dia. 2 2 A B C 40 14 D dia. 6 25 t1 25 2 2 2 5

5. GASKET AND BOLTING FORM NO PART OF THE PURCHASE ORDER. 4. REFERENCE: FOR SIEVE DETAILS SEE DRG NO. TML-OPS-GEN-SP-P-0003

BUTT WELDING END THICKNESS

2. BOLT HOLES IN BRANCH-END FLANGES STRADDLE TO CENTER LINES. 3. PIPE WALL THICKNESS

1. DIMENSIONS IN MILLIMETRES.

MATERIALS

AS PER PURCHASE ORDER.

10 12 15 15 12 10 290 380 420 610 740 880 980 820 520 150 300 400 350 250 200 100 80 DN 50 size A 400 180 280 290 330 210 260 700 850 750 600 500 150 140 110 B 300 260 210 C D Nom. 770 310 505 530 610 370 430 1370 1660 1470 1170 970 210 220 8 6 6 160 E 590 560 500 F SHT 15 OF 27. NOTES

Y-TYPE STRAINERS,

ASME CLASSES 150 AND 300

NOTES:

1. DIMENSIONS IN MILLIMETRES.

2. DIRECTION OF FLOW SHALL BE CLEARLY STAMPED IN BODY OF STRAINER. 3. WELDING DETAILS ACCORDING TO ASME/BS CODES.

4. DESIGN IN ACCORDANCE WITH ANS B 31.3.

SERVICE LIMITS AND HYDROSTATIC TEST PRESSURE ACCORDING TO ANS CLASS 150 PRESSURE-TEMPERATURE RATING UP TO MAXIMUM FOR MATERIALS LISTED.

6. FLANGES AS PER ANSI B 16.5 (FOR BODY SIZES < DN 600) OR ANSI B 16.47 SERIES A (FOR BODY SIZES > DN 600)

5. CALCULATION BASIS FOR WALL THICKNESS OF BODY, INLET AND OUTLET. - SIZES < 24" API 5L Gr B, JOINT EFFICIENCY 0,95

- SIZES > 24" A 516 Gr 60, JOIT EFFICIENCY 0,85

7. CORROSION ALLOWANCE 3 MM (FOR PRESSURE CONTAINING PARTS ONLY.)

MATERIALS

FLANGES : ASTM A 105 : API 5L Gr B STRAINER BODY,

: ASTM A 106 Gr B INLET AND OUTLET

OR PLATE MATERIAL AS FOR BOTTOM : ASTM A 516 Gr 60

BOTTOM PLATE

: CAF OR ASBESTOS FREE OIL RESISTANT, 1.5mm THICK GASKET : ASTM A 193 B7 STUDBOLT : ASTM A 194 Gr 2H NUT THREAD BOLT DIA > 1" UN : ASTM A 283 Gr C PERFORATED PLATE AND FLATES

: ASTM A 492 TYPE 316, 40 MESH SWG 32 WIRE CLOTH

WIRE CLOTH, 32.2 % OPEN. : ASTM A 576 Gr 1022 LIFTING EYES AND GRIP

: BOLT DIA<1" UNC SB 3 SB 4 SB 6 SB 8 SB 10 SB 12 SB 14 SB 16 SB 18 SB 20 SB 24 600 500 450 400 350 300 250 200 150 100 80 30 40 800 750 600 500 450 400 300 250 200 150 18* 30 40 1725 1525 1375 1225 1110 1025 875 775 660 510 460 1190 1070 945 825 735 675 560 500 425 300 270 776 726 581 482 434 387 307 257 205 154 54 51 40 34 31 27 22 19 15 12 550 510 425 370 335 320 260 220 190 155 16 10 210 185 180 170 163 155 140 140 135 150 100 878 815 705 616 548 502 414 380 325 235 210 780 729 577 481 431 384 304 254 202 151 1117 1000 886 766 682 625 514 459 387 266 239 5 3 290 239 213 193 168 153 128 102 77 51 38 ITEM INLET/OUTLET DN SCHED. No. BODY DN SCHED. No. A B C D E F G H J K L M R C1

*) NOMINAL PLATE THICKNESS IN MM

180 185 24 24 18 16 18 16 14 14 12 12 12 SECTION C-C SECTION A-A 20

Welding neck flange

Direction of flow

OUTLET

Wire cloth

Perforated plate

Holes 9 mm square pitch 12 mm Free area 58% Blind flange C C A A B B 50 INLET Drain point Sched. 80 (S) DN 20 sched. 80 250 DN 20 40 28 dia. H G F dia E J 50 5 M E 65 40 C dia D SECTION B-B over 10" size applied for flanges Lifting eyes only to be

6 16 dia 60 35 K A M L B 3 1/2 K 8 1/2 K C1 60 3 16

BUCKET TYPE BASKET STRAINER

CI 150

219 198 209 120 400 80 40 1059 1048 1069 1035 1017 1026 361 342 379 147 155 163 4 x 190 351 327 363 B 119 117 105 148 111 140 132 175 175 177 157 194 183 173 192 166 146 40/40 S 746 40 S 120 120 120 350 80 40 30 80 250 300 30 40 80 933 923 942 944 857 866 877 875 875 740 732 40/40 S 80/80 S 120 80/80 S 40/40 S 120 120 200 30 40/40 S 20 100 150 80 480 611 748 605 619 617 353 488 484 356 359 160 10 S 40/40 S 10 S 160 40/40 S 10 S Body 80 80 size DN Nom. 50 80 schedule 302 362 298 234 304 307 238 240 241 approx. A 252 108 722 243 716 710 846 846 848 831 913 903 895 911 839 315 298 331 271 334 287 128 135 142 116 144 123 305 301 302 228 241 131 129 130 98 103 4 x 170 303 290 315 266 327 279 3 x 170 3 x 200 291 291 291 219 231 346 341 343 472 464 468 598 596 586 723 591 58 80 137 191 255 180 200 204 82 77 110 87 86 53 90 84 88 144 152 56 59 95 100 38 65 61 42 40 123 2 x 200 183 243 171 195 195 2 x 160 1 x 200 75 135 146 87 87 F 235 233 236 229 299 302 297 349 293 38 62 42 64 106 71 47 44 24 80 76 41 35 45 31 19 37 39 approx. 30 28 31 50 47 53 D 24 23 25 approx. E 99 n x P G 10S 493 93 159 68 477 153 90 622 10S 122 209 601 199 30 618 118 203 87 597 195 20 750 150 258 111 725 245 10S 752 152 262 113 727 249 20 879 179 309 133 850 294 10S 881 181 312 134 852 297 20 946 196 337 145 915 329 10S 949 199 344 148 918 336 30 1073 223 385 166 1039 368 20 1075 225 388 167 1041 371 10S 1079 229 395 170 1045 378 approx.

7. REFERENCES: FOR BODY DETAILS SEE see DRG No. TML-OPS-GEN-SP-P-0007 SHT 17 OF 27. 6. DIMENSIONS R1, R2 AND L TO BE DETERMINED BASED ON DIMENSIONS OF STRAINER BODY.

- FOR CENTRIFUGAL COMPRESSORS AND ALL PUMPS: NO SECONDARY MESHIS REQUIRED. 200 MESH LATER.

L WOVEN WIRE CLOTHS TO BE SUPPLIED SEPARATELY TO REPLACE THE

- FOR A RECIPROCATING COMPRESSOR: PRIMARY MESH 200 MESH SWG 44, 33,9 % OPEN - FOR PUMPS: 40 MESH SWG 32 WIRE CLOTH, 32,2 % OPEN.

- FOR COMPRESSORS: 22 MESH SWG 33, 61 % OPEN AREA STAINLESS STEEL WOVEN WIRE - FOR LIQUID SERVICE: 9 MM SQUARE HOLES, 12 MM PITCH, 3 MM PLATE THICKNESS. 1. DIMENSIONS IN MILLIMETRES.

5. WIRE CLOTH'S TO BE FIXED ON SIEVE. SECONDARY MESH PROPERTIES: 4. PRIMARY MESH PROPERTIES :

- FOR GAS SERVICE : 7,2 HOLES/CM , 3 MM PLATE THICKNESS. 3. PERFORATED PLATE PROPERTIES:

2. MATERIALS AS PER PURCHASE ORDER

SECTION A-A

Strainer body as per

TYPICAL LAY-OUT OF STRAINER ASSEMBLY

DRG. S 38.002

Perforated plate with the facing of the WN flange

End of sieve shall be flush see note 3

See note 7 R1 R2 R1 DETAIL 1 DETAIL 2 See note 6 A See note 7 L B D Perforated plate

SIEVE LAY-OUT FOR DN 50 AND DN 80

SIEVE LAY-OUT FOR DN 100 AND ABOVE

Grip 10 dia. 3 See detail 2 E See note 7 See note 7 3 F 10 10 8 B n x P P B 8 F 15 20 20 15 15 G D 6 1/2 D E/2 E NOTES CLOTH.

STAINLESS STEEL WIRE CLOTH. A 100 MESH SWG 39, 23 % OPEN AREA STAINLESS STEE

64 20 21 82 50 40 25 108 55 92 70 44 27 127 20 114 89 -15 300 350 250 300 150₂₀₀ 100 51 14 66 -419 483 359 317 349 268 247 305 178 157 216 106 451 514 387 33 33 30 270 330 200 22 26 22 6 36 20 73 21 95 68 11 58 42 9 7 50 143 40 25 114 83 52 171 41 27 146 108 30 5 138 124 118 32 35 27 112 138 118 18 23 13 1500 15 67 14 89 250 432 150 200 100 279 349 206 246 482 147 197 98 317 393 241 44 9 30 90 -70 50 18 15 11 - 40 7 52 188 39 45 36 118 150 134 58 37 47 27 300 406 317 432 26 50 80 40 20 25 15 400 350 108 146 92 55 81 44 64 70 51 21 27 14 127 168 114 20 22 -82 89 66 -511 448 400 349 540 476 30 30 150 150 250 200 100 80 50 219 157 337 276 268 216 171 133 106 81 241 22 362 298 26 22 190 152 20 20 102 55 120 20 190 21 68 96 58 8 11 7 36 42 30 5 5 5 176 208 25 23 50 80 40 140 171 96 20 25 15 67 76 60 52 79 41 165 203 124 21 27 14 89 101 82 148 12 154 188 18 15 114 86 9 8 900 64 6 150 286 250 200 432 356 100 80 203 165 317 155 246 197 470 393 102 79 235 190 50 140 52 165 26 33 -90 110 56 -40 44 34 16 21 13 8 9 6 124 33 39 39 140 156 33 26 132 108 29 46 37 21 17 26 90 13

1 MM CORROSION ALLOWANCE IS INCLUDED ON BOTH SIDES.

WELDED FABRICATION FROM TWO OR THREE PIECES IS PERMISSIBLE . THICKNESS CALCULATIONS BASED ON ASME B31.3, SECTION 304.5.3. 5.

4. 3

NOTES:

DIMENSIONS IN MM.

MATERIAL AS PER PURCHASE ORDER. 2. 1. R=0.5D 600 300 200 250 150 80 100 454 307 318 397 264 206 255 155 489 36 349 432 292 33 36 30 146 191 79 103 168 216 22 26 2500 114 44 140 128 116 31 38 24 96 126 15 18 200 250 150 384 473 314 197 246 147 438 539 368 80 100 194 232 79 98 228 273 56 68 56 162 200 204 58 72 47 36 42 124 150 26 33

HEAT NUMBER AND MATERIAL GRADE TO BE MARKED ON SPECTACLE BLIND. 6. =C= B A t E D

SPECTACLE BLINDS FOR

ASME FLANGES

NPS 1/2 3/4 1 11/2 2 3 4 6 8 10 12 273.0 323.9 114.3 168.3 219.1 48.3 60.3 88.9 21.3 26.7 33.4 250 200 150 75 100 324 381 157 216 270 73 92 127 35 43 51 9 5S 9 6 10S 9 20 12 9 6 40S 15 12 9 80S T/2 3 R 300 250 200 150 100 80 50 40 25 20 15 mm OD F G SCHEDULE NO.

Nominal size "T" IN RELATION TO PIPE WALL THICKNESSES

DIMENSIONS IN MILLIMETRES

note 4

NOTES:

1. MATERIAL AS PER REQUISITION.

2. STUB END TO BE STAMPED WITH MATERIAL IDENTIFICATION, NOMINAL SIZE AND SCHEDULE NUMBER AT OUTER RIM OF RING. 3. "SMOOTH FINISH" Ra 3.2-6.3 M.M

4. TOLERANCES ACCORDING TO ANSI B 16.9.

5. THIS DRAWING SHALL ONLY BE USED WHEN FORGED STUB ENDS CANNOT BE OBTAINED OR FOR INDIVIDUAL CASES.

T=6 SEE NOTE 2

DETAIL

TO BE MADE FROM LINE PIPE PIPE WALL DN 1.5 1.5 R F OD 2/3T T See

LAP JOINT STUB-END (RING-TYPE)

FOR ANSI FLANGES C150 AND 300

NOTES:

Only to be mounted when Execution to appropriate 180 220 500 400 320 125 780 660 1180 980 880 600 ASME B16.5.

TO CONE. FILTER WILL BE SUBJECTED TO PULSATING FLOW AND MAY 6. PRIMARY MESH AND SECONDARY MESH MUST COVER FULL

5. ONLY THE WALL OF THE CONE IS PERFORATED. 4. PIPE SIZE AND FLANGE CLASS TO BE CLEARLY DIE 3. DIMENSION "B" IS BASED ON ID LINE PIPE CONFORN

600 500 450 400 350 300 250 200 150 100 80 50 size Nom.

2. MATERIALS AS PER REQUISITION. 1. DIMENSIONS IN MILLIMETRES. DN ANS class 600 146 190 396 318 264 108 562 488 786 680 610 454 536 510 714 602 546 772 650 594 170 336 276 218 448 406 class 150 ANS 132 102 178 358 482 420 304 248 146 108 ANS class 300 160 350 530 440 396 240 200 180 92 234 186 140 306 278 see note 3 68 44 B 40 100 140 120 80 60 30 20 C D quantity "N" Primary mesh Secondary mesh

see table for equally spaced 10 Ga. wire hoops

Perforated plate WALL SECTION A strainer is in use. piping class FLOW ANS class 600 85 95 90 70 100 120 115 105 3 7 6 4 E 5 4 3 2 T 1 0 N 95 85 95 90 115 105 100 70 80 75 ANS class 150 65 80 85 90 80 75 70 ANS class 300 40 50 45 30 35 25

TYPICAL STRAINER INSTALLATION

F

DN150-ANS150

See note 4

G

FLOW

SLANT HEIGHT OF CONE AND BE SURELY WELDED OR BRAZED ALSO BE SUBJECTED TO FLOW REVERSAL.

END PLATE AND FLANGE OF THE FILTER ARE NOT PERFORATED. STAMPED ON HANDLE E.G DN 150 - ANS 150.

SCHED. 80 AS PER ASME B 36.10.

8. THE STRAINER DESIGN IS BASED ON DIFFERENTIAL PRESSURE OF 3 BAR.

9. PERFORATED PLATE PROPERTIES.

CARBON STEEL: 3MM HOLES ON A PITCH OF 4MM RESULTING IN AN OPEN

10. PRIMARY MESH PROPERTIES:

22 MESH SWG 33, 61% OPEN AREA STAINLESS STEEL WOVEN WIRE 293 327 196 260 200 220 320 400 250 220 125 180 H 2 5 2 2 2 2 2 1 of nr. ENLARGED Axial stiffener

Circ. segment stiffener

VIEW A-A

rings N1

C

(only required when circular stiffeners are specified)

11. SECONDARY MESH PROPERTIES:

- FOR A RECIPROCATING COMPRESSOR: 200 MESH SWG 44, 33.9% OPEN AREA STAINLESS STEEL WOVEN WIRE CLOTH. ALSO A 100 MESH

TO BE SUPPLIED SEPARATELY TO REPLACE THE 200 MESH LATER.

- FOR A CENTRIFUGAL COMPRESSOR: NO SECONDARY MESH IS REQUIRED. SWG 39, 23% OPEN AREA STAINLESS STEEL WOVEN WIRE CLOTH IS AREA OF 51%.

STAINLESS STEEL: 3 MM HOLES ON A PITCH OF 5 MM RESULTING IN AN OPEN AREA OF 33%.

ANY ALTERNATIVE PLATE SHALL HAVE NO LARGER HOLE OR SMALLER

G

A dia. (See note 7) B dia. E D HXN1 H E C 5 D 5 E 30 F

7. THE GASKET CONTACT SURFACE SHALL BE IN ACCORDANCE WITH

OPEN AREA.

CLOTH.

TEMPORARY STRAINER

FOR COMPRESSOR

See notes 3, 4 and 7 II 500 600 450 680 787 610 175 185 175 -105 20 64 600 III II I 350 400 300 489 562 454 200 250 150 318 397 264 165 170 165 -130 165 125 33 -30 80 100 50 146 191 108 40 25 92 70 110 120 105 22 26 20 110 105 -III 300 II 651 500 15 600 51 772 450 400 594 536 170 100 180 -170 165 -300 350 250 419 483 359 150 200 100 247 305 178 155 155 120 -30 115 115 115 22 26 22 80 100 80 68 81 61 110 73 20 30 6 2500 80 80 80 48 55 44 80 80 76 31 38 24 III 56 66 50 15 18 11 40 34 9 7 II I 300 546 200 250 150 384 473 314 215 -190 210 190 -80 100 50 194 232 143 40 25 114 83 130 140 125 36 42 30 120 115 -III 49 80 24 80 5 58 80 80 44 39 80 80 76 32 35 27 56 66 56 18 23 13 1500 753 500 15 600 67 899 450 400 702 638 225 110 245 -215 200 -300 350 250 518 575 432 150 200 100 279 349 206 185 195 185 -135 175 130 39 -36 9 30 100 86 80 90 80 58 72 47 80 85 75 26 33 18 50 34 15 11 106 100 24 115 7 127 100 90 96 85 80 80 80 69 75 58 80 80 80 37 47 27 26 115 406 300 I III 50 80 40 108 146 92 20 25 15 64 70 51 105 110 110 20 22 -105 105 100 -546 450 600 500 714 603 400 350 511 448 150 160 155 -150 150 -II 150 219 150 250 200 337 276 100 80 171 133 22 105 110 110 26 22 105 105 20 20 40 50 25 83 102 64 100 100 100 20 -165 495 300 21 66 50 56 40 8 11 7 30 34 24 5 5 5 I 28 80 80 80 37 31 80 80 25 23 III 50 80 40 140 171 96 20 25 15 67 76 60 115 125 120 26 33 -110 115 105 -635 450 600 500 835 695 400 350 572 518 185 210 190 -175 170 -12 56 66 56 18 15 50 50 9 8 900 II 40 50 34 5 6 5 286 150 250 200 432 356 100 80 203 165 33 125 165 165 -125 115 33 26 40 50 25 96 140 76 120 115 115 26 -80 54 66 80 40 16 21 13 30 34 24 8 9 6 75 80 80 80 99 83 80 80 66 59 29 80 80 80 46 37 80 66 21 17 40 66 34 10 13 7

DIE STAMPING WITH A LETTER HEIGHT OF APPROX. 5 MM SHALL BE USED. - THE MANUFACTURER SYMBOL.

- THE TYPE OF HEAT TREATMENT.

- THE CHARGE OR HEAT NUMBER OF BASE MATERIAL.

THE OPPOSITE SIDE OF THE HANDLE SHALL BE MARKED WITH: - THE MATERIAL STANDARD AND GRADE.

THE HANDLE MAY BY MADE INTEGRAL WITH THE SPADE, IF T = MAX. 6MM. 4. PLATE-THICKNESS 0.7T: HOWEVER MIN. 3MM AND MAX. 12MM.

3. ONE SIDE OF THE HANDLE SHALL BE MARKED WITH: 2. MATERIAL AS PER PURCHASED ORDER.

HANDLE TYPE III

See note 3

A

- THE NOMINAL SIZE (MM). - THE WORD "SPADE". 1. DIMENSIONS IN MM. NOTES:

of flange

HANDLE TYPE II

HANDLE TYPE I

See notes 3, 4 and 7 _{See note 2}

-1045 170 900 1381 1216 1200 1050 175 170 879 750 160 48 100 63 56 100 100 41 100 -1197 240 900 1483 1299 1200 1050 280 260 1007 750 220 135 80 178 156 100 80 115 80 -949 1115 1321 1162 900 1200 1050 750 190 190 190 180 67 79 104 91 100 100 100 100 100 111 190 900 1127 -1387 1216 1200 1050 195 195 146 128 115 115 -968 750 190 100 94

5. THICKNESS CALCULATIONS BASED ON ASME B31.3, SECTION 304.5.3. 6. 1MM CORROSION ALLOWANCE IS INCLUDED ON BOTH SIDES.

7. DO NOT DRILL A HOLE BECAUSE A HOLE WOULD INDICATE A SPACER RATHER THAN A SPADE. (ASME B16.48 SECTION 7)

6 A C E Bolt-circle A t C 10 50 50 E ~0.7t t

SPADE BLINDS FOR

ASME FLANGES

See note 6 See note 6 II 1127 1387 1216 900 1200 1050 905 1210 1060 195 195 190 105 20 64 21 600 III II I 264 397 318 454 968 489 300 750 350 150 250 200 307 755 343 165 190 165 155 255 206 130 165 125 70 92 108 191 146 50 100 80 25 40 55 103 79 110 120 105 27 44 110 105 III 300 II 536 594 772 51 651 500 600 15 400 450 170 500 603 14 100 180 400 449 170 165 178 305 247 359 483 419 250 350 300 100 200 150 268 349 317 155 155 120 106 216 157 115 115 115 -115 115 100 128 146 111 98 197 147 246 321 292 368 425 578 14 476 27 41 52 98 79 147 246 197 292 21 73 20 30 6 2500 -80 100 80 33 -30 80 80 76 48 94 44 31 38 24 22 26 20 56 66 50 -40 34 15 18 11 9 7 150 250 200 300 III 546 314 473 384 25 40 50 100 80 II I 143 232 194 83 114 80 -24 80 -80 80 49 5 58 44 39 -30 80 80 76 22 26 22 56 66 56 32 35 27 18 23 13 1500 III 400 450 600 15 500 753 899 67 638 702 100 200 150 250 350 300 432 575 518 206 349 279 9 30 110 215 -190 210 190 -100 86 80 90 80 58 72 47 125 140 130 36 42 30 115 120 -80 85 75 26 33 18 50 34 15 11 225 245 110 -200 215 -106 100 24 115 7 127 100 90 96 85 185 195 185 -130 175 135 39 -36 80 80 80 69 75 58 80 80 80 37 47 27 115 317 406 300 I III 51 70 64 92 146 108 40 80 50 15 25 20 44 81 55 105 110 110 14 27 21 105 105 100 448 879 1216 1381 1045 900 1050 1200 350 750 170 905 1060 1210 175 170 349 755 160 150 II 150 I 133 171 276 337 219 150 200 250 80 100 105 157 216 268 110 110 81 106 105 105 54 45 64 102 83 25 50 40 20 15 27 55 44 100 100 100 21 14 100 100 21 14 27 52 41 79 102 197 246 155 321 755 1060 1210 905 14 27 21 41 79 52 292 495 300 21 66 26 20 22 -50 56 40 -- 30 34 24 8 11 7 5 5 5 100 -100 100 -100 80 48 63 56 41 23 15 25 20 40 80 50 I 96 171 140 60 76 67 350 750 1050 1200 900 III 1197 1299 1483 518 1007 56 22 26 22 66 56 20 20 50 50 900 12 18 15 9 8 -20 -40 50 34 -24 30 5 6 5 5 5 80 100 200 250 150 II 286 356 432 165 203 20 15 25 50 40 I 76 140 96 67 60 80 54 165 120 125 115 26 33 -105 115 110 -66 80 40 16 21 13 30 34 24 8 9 6 240 260 280 -170 220 -135 80 100 80 178 156 80 80 115 59 33 125 165 165 -115 125 33 26 29 80 80 80 46 37 80 66 21 17 115 115 120 -26 -110 105 -40 66 34 10 13 7 24 30 5 6

HANDLE TYPE III

See note 3 = =

A

Handle type: I, II or III See notes 3 and 4

of flange

HANDLE TYPE II

See notes 3 and 4

HANDLE TYPE I

See note 2

-80 80 80 80 546 714 603 511 400 600 500 450 400 150 150 160 155 603 500 449 -450 600 500 400 25 37 31 28 175 572 375 425 590 482 835 695 635 210 190 185 80 66 75 99 83 80 80 80 100 100 100 100 905 190 900 1115 1162 1321 1200 1050 190 190 1210 1060 -949 750 755 180 -79 104 91 67 80 80 100 80 389 170 400 562 680 787 610 600 500 450 175 185 175 591 489 438 -- 55 81 68 61 -6 C Max. 70 15 A D 12 E Bolt-circle t A B C 10 50 50 12 E ~0.7t t

DIE STAMPING WITH A LETTER HEIGHT OF APPROX. 5 MM SHALL BE USED. - THE MANUFACTURER SYMBOL.

- THE TYPE OF HEAT TREATMENT.

- THE CHARGE OR HEAT NUMBER OF BASE MATERIAL.

THE OPPOSITE SIDE OF THE HANDLE SHALL BE MARKED WITH: - THE MATERIAL STANDARD AND GRADE.

THE HANDLE MAY BY MADE INTEGRAL WITH THE SPADE, IF T = MAX. 6MM. PLATE-THICKNESS 0.7T: HOWEVER MIN. 3MM AND MAX. 12MM.

ONE SIDE OF THE HANDLE SHALL BE MARKED WITH: MATERIAL AS PER PURCHASED ORDER.

4.

- THE NOMINAL SIZE (MM). - THE WORD "SPCER". DIMENSIONS IN MM. NOTES:

2. 3. 1.

THICKNESS CALCULATIONS BASED ON ASME B31.3, SECTION 304.5.3.

7. 1MM CORROSION ALLOWANCE IS INCLUDED ON BOTH SIDES. 5.

6. A HOLE OF 12MM DIA SHALL BE DRILLED AS AN IDENTIFICATION-MARK FOR SPACER

SPACER FOR ASME FLANGES

FOR REPLACEMENT OF SPADES

For standard length 230 mm and 255 mm this part of the stem to roughen to (Ra 6) Standard Length "L" mm 305 355 405 455 Length "L" 255 230 mm Standard

For piping systems only

See note 3 R=3 See note 3 See note 3 See note 3 R=3 WELDED TYPE +0.1 -0.1 +0.1 0.0 (ALTERNATIVE) =A= dia. 30 dia. 14 dia. 8 dia 6.5 dia =A= dia. 30 dia. 1.5 NOTES: 1. DIMENSIONS

ALL DIMENSIONS ARE IN MM. 2. CONCENTRICITY

ALL DIAMETERS SHALL BE CONCENTRIC WITH EACH OTHER WITHIN 3. GROOVE DIMENSIONS

GROOVE DIMENSIONS (RING JOINT) SHALL BE IN ACCORDANCE

5. LENGTH "L"

LENGTH AS PER PURCHASE ORDER. 6. MATERIAL

MATERIAL SPECIFICATIONS AS PER PURCHASE ORDER. SIZE DN 40 DN 50 124 92 =A= R 24 GROOVE NUMBER R 20

SOFT IRON GASKETS IN ACCORDANCE WITH ASME B16.20. GASKET

4.

A TOLERANCE OF 0.2 MM.

WITH ASME B16.5.

FLANGED THERMOWELL,

For standard length 230 mm and 255 mm this part of the stem to roughen to (Ra 6) R=3 R=3 WELDED TYPE FORGED TYPE +0.1 0.0 (ALTERNATIVE) 133 dia. 30 dia. 16 dia. 6.5 dia 133 dia. 30 dia. 1.5 Standard Length "L" mm 305 355 405 455 roughen to (Ra 6)

305 mm this part of the stem to

For standard length

(For piping systems only) Length "L" (For piping mm Standard Groove number R 26 See note 3 255 systems only) Groove number R 26 See note 3 NOTES: 1. DIMENSIONS

ALL DIMENSIONS ARE IN MM. 2. CONCENTRICITY

ALL DIAMETERS SHALL BE CONCENTRIC WITH EACH OTHER WITHIN 3. GROOVE DIMENSIONS

GROOVE DIMENSIONS (RING JOINT) SHALL BE IN ACCORDANCE

5. LENGTH "L"

LENGTH AS PER PURCHASE ORDER. 6. MATERIAL

MATERIAL SPECIFICATIONS AS PER PURCHASE ORDER. SOFT IRON GASKETS IN ACCORDANCE WITH ASME B16.5 GASKET

4.

A TOLERANCE OF 0.2 MM.

WITH ASME B16.20.

FLANGED THERMOWELL,

RING JOINT ASME CLASSES 2500

Marking

Branch outlet fitting DN 50

R=9 R=2

LENGTH "L" AS PER PURCHASE ORDER.

MATERIAL SPECIFICATIONS AS PER PURCHASE ORDER.

ALL DIAMETERS SHALL BE CONCENTRIC WITH EACH OTHER WITHIN A TOLERANCE OF 0.3 MM. ALL DIMENSIONS ARE IN MM UNLESS OTHERWISE INDICATED.

CONCENTRICITY

SCHEDULE NUMBER OF WELDING END AS SPECIFIED IN THE PURCHASE ORDER. MATERIAL

SCHEDULE NUMBER (WELDING END) 6.

5.

LENGTH "L" 4.

DIMENSIONS

DEPENDENT ON SELECTION OF MATERIAL AND SCHEDULE NUMBER OFWELDING END. SERVICE LIMITS 2. 3. 1. NOTES: 6.5 dia 115 80-100 165 150 and larger mm DN (mm) "L" pipe size Length for nominal Standard Applicable

branch outletNominal size

at welding end fitting DN (mm) Schedule no. mm"A" 50 160 42.5 50 XXS 38 +0.1 -0.1 0.0 +0.1 1/2 NPT 1.5 18 dia. 8 dia

HIGH PRESSURE WELDING

THERMOWELL

ADDITIONAL REQUIREMENTS

MATERIAL SPECIFICATIONS AS PER PURCHASE ORDER. ADDITIONAL REQUIREMENTS AS PER BUYING DESCRIPTION. LENGTH AS PER PURCHASE ORDER.

6. 5.

MATERIAL LENGTH "L"

Standard lap flange

THE FLANGE FACING FINISH SHALL BE IN ACCORDANCE WITH ALL DIAMETERS SHALL BE CONCENTRIC WITH EACH OTHER WITHIN GASKET CONTACT SURFACE FINISH

CONCENTRICITY

ALL DIMENSIONS ARE IN MM.

4. 3. 2. 1. NOTES: DIMENSIONS DN40 nozzle FORGED TYPE Standard Length "L" mm 305 355 405 455 (For piping systems only) 1/2" NPT roughen to (Ra 6).

255 mm this part of the stem to

For standard length 230 mm and

R=7 systems only For piping 230 255 Standard mm Length "L" +0.1 0.0 30 dia. 5 120 14 dia. 25 14 15 8 dia 6.5 dia A TOLERANCE OF 0.2 MM ASME B 16.5.

FLANGED THERMOWELL DN40

ASME CLASSES UP TO 1500 incl.

MATERIAL SPECIFICATIONS AS PER PURCHASE ORDER. LENGTH "L"

LENGTH AS PER PURCHASE ORDER. MATERIAL

5. 4.

ALL DIAMETERS SHALL BE CONCENTRIC WITH EACH OTHER WITHIN A TOLERANCE OF 0.2 MM. THE FLANGE FACING FINISH SHALL BE IN ACCORDANCE WITH ASME B 16.5.

DIMENSIONS

ALL DIMENSIONS ARE IN MM. CONCENTRICITY

GASKET CONTACT SURFACE FINISH 3. 2. NOTES: 1. DN50 nozzle Standard lap flange 1/2" NPT roughen to (Ra 6).

This part of the stem to

R=8 systems only For piping 230 255 Standard mm Length "L" +0.1 0.0 30 dia. 5 120 16 dia. 25 14 15 8 dia 6.5 dia

FLANGED THERMOWELL DN50

ASME CLASSES UP TO 2500 incl.

SC

PROCESS LINE

50

50

50

50

NOTE 2

SS

TUBING

NOTE 1

NOTE 1

(VENDOR

SUPPLY)

SS

TUBING

15

15

15

1/2" NPTF

15

1/2" NPTF

PROCESS LINE

SAMPLE SYSTEM CONNECTIONS

NOTES:

1. PIPING CLASS TO FOLLOW TML-OPS-GEN-SP-0007.

2. DOUBLE BLOCK AND BLEED ASSEMBLY DN50 x 1/2 NPTF.

3. SAMPLE SHOULD BE TAKEN FROM A VERTICAL PIPE, WHERE NOT POSSIBLE.

- FOR GAS IN HORIZONTAL PIPE, SAMPLING CONNECTION SHALL BE INSTALLED AT THE TOP OF THE PIE.