2″ 600LB 2-Piece Free Forged Trunnion Ball Valve

TECHNICAL DATA SHEET

2″ 600LB Two-Piece Free Forged Trunnion Ball Valve

1. General Information

This 2″ 600LB two-piece trunnion-mounted ball valve is engineered for demanding isolation and flow control applications in oil & gas, petrochemical, chemical, power generation, and long-distance pipeline services. Featuring a robust two-piece bolted body construction with fixed ball trunnion design, it provides bidirectional bubble-tight shutoff, reduced operating torque, and extended service life under high pressure conditions.

2. Key Design Features

1) Two-Piece Bolted Body Construction
Robust body/bonnet bolted connection, suitable for high-pressure classes; options for ring gasket, spiral wound gasket, or lip seal ring.

2) Trunnion-Mounted Ball
Fixed ball design with lower trunnion support and upper anti-blowout stem; absorbs line pressure thrust, significantly reduces operating torque.

3) Double Block & Bleed (DBB) Capability
Standard design enables simultaneous isolation from both upstream and downstream, with cavity pressure relief and bleed functionality.

4) Dual Piston Effect (DPE) / Single Piston Effect (SPE) Seats
Flexible seat configurations available; Inconel®-energized springs ensure low-pressure sealing.

5) Fire-Safe & Anti-Static
Compliant with API 607/6FA and BS 5353; blowout-proof stem and anti-static device standard.

6) Low Fugitive Emission Packing
Live-loaded disc spring packing system; optional ISO 15848-1 compliance.

7) Full Traceability
Positive Material Identification (PMI) and EN 10204 Type 3.1 certification available.

3. Design Standards & Specifications

4. General Technical Parameters

5. Bill of Materials (Main Components)

6. Body Material — ASTM A105/A105N

As a 2″ free forged carbon steel valve, the body and bonnet shall be manufactured from ASTM A105 or A105N (normalized) forged carbon steel. This material is classified under ASME B16.34 Material Group 1.1, suitable for general carbon steel service.

6.1 Chemical Composition (ASTM A105/A105N)

6.2 Mechanical Properties (ASTM A105/A105N)

7. Pressure-Temperature Ratings (Per ASME B16.34, Material Group 1.1)

The following table provides the maximum allowable working pressure at various temperatures for ASME Class 600 valves manufactured from ASTM A105 carbon steel (Material Group 1.1 per ASME B16.34).

Notes:

• At ambient temperature (-29°C to 38°C), a Class 600 carbon steel valve has a maximum working pressure of approximately 1,480 psig (102.1 barg).
• The maximum allowable working pressure decreases as the temperature increases due to reduced material allowable stress.
• The actual operating pressure shall NOT exceed the tabulated value at the design temperature.
• For specific project requirements involving different material groups or temperature ranges, please consult the ASME B16.34 standard or contact the manufacturer.

8. Test & Inspection

8.1 Test Pressure (Unit: MPa)

Note: Specific values shall be performed per API 6D / API 598. The shell hydrostatic test pressure for Class 600 carbon steel valves is 154 bar (15.4 MPa) per API 598. The seat high pressure test pressure for Class 600 is 110.3 bar.

8.2 Inspection Requirements

9. Dimensions & Weight

9.1 Face-to-Face Dimension (ASME B16.10)

Note: Face-to-face dimension is per ASME B16.10. For butt weld ends (BW), the dimension may differ from flanged ends.

9.2 Approximate Overall Dimensions

Note: The exact dimensions, flange facing finish, and weight depend on end connection type and specific design/manufacturer. Please refer to the manufacturer‘s certified general arrangement drawing or confirm with the manufacturer for specific project requirements.

10. Scope of Supply & Optional Configurations

11. Application & Service Suitability

This valve is designed and manufactured for the following demanding industrial applications:

• Oil & Gas Production: Upstream wellhead isolation, gathering systems, and crude oil transmission
• Natural Gas: Transmission pipelines, compressor stations, and gas processing facilities
• Petrochemical & Chemical: Reactants, solvents, slurries, and aggressive chemical media
• Refining: Catalytic cracking, hydrocracking, and product blending
• Power Generation: Boiler feed water, steam, condensate, and cooling water systems
• Long-Distance Pipeline: Mainline block valve, scraper station isolation, and station bypass services
• Sour Service (with NACE MR0175 compliance): H₂S-containing hydrocarbons
• High-Temperature Service (with Metal Seated configuration): Steam and heat transfer fluids up to +560°C

12. Additional Design Features

12.1 Anti-Static Design

To prevent friction-induced static electricity buildup between the ball, stem, and PTFE components that could ignite combustible or explosive media, a static-conduction spring is installed between the stem and the ball, and between the stem and the body, ensuring static electricity is safely conducted to ground.

12.2 Fire-Safe Design

Under normal operation, the valve is sealed by the seat-to-ball contact surface, with the seat retainer sealed by an O-ring against the body — providing reliable soft sealing. In the event of a fire, when the primary soft seat and O-ring are burnt away, the seat retainer and body form a secondary metal-to-metal seal via expanded graphite, maintaining valve integrity and achieving fire-safe performance compliant with API 607 and API 6FA.

12.3 Anti-Blowout Stem

The stem is designed with an integral shoulder or retaining ring that prevents it from being ejected from the valve body under pressure, even if the stem packing gland is removed while the valve is pressurized — ensuring operator safety and system integrity.

12.4 Low Operating Torque

Self-lubricated bearings are installed at all stem friction points, reducing wear and ensuring operational flexibility with low torque requirements.

12.5 Cavity Pressure Relief

The standard self-relieving seat design automatically vents excessive cavity overpressure to the low-pressure side when the cavity pressure exceeds 1.33 times the valve pressure rating at 38°C, in accordance with API 6D Section 6.8.

12.6 Emergency Stem / Seat Sealant Injection

Compound injection holes are designed at the stem/cap and body seat support locations, allowing for emergency sealant injection in the event of stem or seat seal damage, enabling the valve to maintain sealing capability until permanent repair can be conducted.

13. Notes

1. This datasheet is prepared based on API 6D, ASME B16.34, and common ASME standards. For specific project requirements, please refer to the detailed engineering datasheet or valve sizing calculation.
2. “Free Forged” indicates that the valve body and bonnet components are manufactured using free forging (open-die forging) processes, which provide superior mechanical properties, structural integrity, and material uniformity compared to cast components, ensuring sufficient rigidity and strength under maximum rated operating pressure without inherent flaws common to cast materials.
3. All pressure-temperature ratings conform to ASME B16.34 for the specified body material group.
4. Material traceability is maintained per EN 10204 Type 3.1 as standard. Type 3.2 certification is available upon request.
5. The manufacturer reserves the right to modify designs, materials, and specifications without prior notice as part of continuous product improvement. Final certified general arrangement drawings shall prevail.
6. For NACE MR0175 / ISO 15156 compliant valves, special material restrictions and hardness limits apply to all pressure-containing and wetted components; these must be specified at the time of inquiry and order.

Disclaimer: This technical data sheet is provided for informational and reference purposes. All dimensions, weights, and performance data are approximate and must be confirmed with certified manufacturer documentation prior to procurement and installation.

GUATANTEE:

SAVVY VALVES is committed to delivering exceptional product quality and worry-free after-sales service. Our valves are guaranteed to provide a minimum service life of 12 months, during which we will supply all necessary spare parts and detailed maintenance instructions free of charge. Within the warranty period, if any non-human-induced damage occurs, we will replace components at no cost and provide professional technical support. After the warranty expires, customers only need to pay for the cost of spare parts, while still benefiting from discounted maintenance services. Our goal is to help clients reduce operational costs and enhance production efficiency through reliable quality and comprehensive after-sales support. Whether for technical inquiries or maintenance needs, our expert team will respond promptly to ensure your valve system maintains optimal performance at all times.