2509-2511 Low Pressure 3 Ply Bellows Joint
Information at a Glance
Series
2500 Low Pressure Round & Rectangular Bellows Expansion Joints
Material
Steel
Size
4 – 240 in. / 100-6000 mm
Pressure
≤15 PSI / 1 Bar
Canadian Registration
This product is registered throughout Canada under
CRN 0D9278.59870YTNADD3
Other Products
Product Description
- Sizes 3″ through 18″, Larger sizes available
- Laminated 3 ply bellows
- Austenitic stainless steel and high nickel alloy bellows
- Maximum flexibility and extended life
Series 2509-2511 Laminated Bellows Expansion Joints are designed specifically for maximum flexibility in low pressure applications such as engine exhaust systems, fan connectors, ventilation ducting and air handling systems. The laminated bellows construction permits axial, lateral and angular movements without exerting high spring forces on the system, and the internal damping provided by the laminations limits resonate vibration. Series 2509-2511 Laminated Bellows Expansion Joints are ideal for direct installation on engine exhaust manifolds, turbochargers and fan inlet and exhaust connections. Hyspan Series 2504-2507 1 Ply Expansion Joints are similar designs with single ply bellows that are less suitable for vibration applications but ideal for use throughout the ducting and piping. Catalog sizes range from 6″ through 48″ diameter.
Design Conditions
All Series 2509-2511 Laminated Bellows Expansion Joints are designed for a maximum pressure (including test pressure) of 15 psig and a full vacuum. They are intended for applications such as engine exhaust, fan connections, vents and other very low pressure applications. The design temperature varies with the construction.
Design Features
The materials of construction for standard assemblies are: type 304 stainless steel bellows, van stone ends and flow liners; ASTM A-36 carbon steel plate flanges and angle flanges, and ASTM A-53 standard weight carbon steel pipe weld ends. Optional materials are available including the substitution of stainless steel for flanges and pipe. Recommended design temperatures are 775ºF for Types 2509 & 2511 with carbon steel fittings, 1100ºF for Type 2510 with carbon steel backup flanges and 1250ºF for all configurations if the component parts are stainless steel. Consult Hyspan for turbocharger and other high pressure applications.
Common Applications
Axial Travel
Axial motion applications with anchors on pipe/duct centerline as shown in the axial travel illustration. The maximum Axial Compression and Axial Extension for each configuration is given in Columns 3 & 4 of the Design Data. Most Series 2500 applications do not require the amount of rated axial extension.
Axial Travel
For these applications the expansion joint can be ordered preset if additional travel is needed. As an example a 3″ joint (-040-5) rated for 5″ compression factory cold sprung 1″ (extended 1″) can be rated for 5″ compression. The allowable axial extension will be reduced from 2.5″ to 1.5″.
Lateral Offset
The lateral offset installation illustrated is a typical application of a Series 2500 Laminated Bellows Expansion Joint installed on an engine exhaust, fan intake or discharge.
Lateral Offset
The high flexibility and internal damping provided by the laminated construction permits absorption of lateral movement from thermal expansion or mechanical motion. Refer to Column 5 of the Design Data for the maximum lateral off-set of each configuration and Flow Liner section regarding clearances. For applications of this type, it is good practice to add Tie Rods to the expansion joint – see Tie Rods below.
2509 Fixed Flange
2510 Van Stone Flange
2511 Weld End
Design Data
Tie rods are available as an option on Series 2509-2511 Laminated Bellows Expansion Joints. They resist the pressure thrust in piping and ducting that is not anchored such as the lateral offset application illustrated above. They may also function as Limit Rods. Limit rods do not react the pressure thrust in service but they are designed to react the pressure thrust in the event of an anchor failure. Their main function is to limit the axial extension and compression of the bellows to the rated values. Hyspan normally refers to both tie rods and limit rods as Tie Rods but the factory settings are important – factory settings as Tie Rods do not permit axial extension but limits compression to the rated value of the bellows. Factory settings as Limit Rods will permit axial extension and compression in accordance with the rated travel specified in the Design Data.
Flow liners or internal sleeves are optional features that are available for all configurations. Liners provide a means of isolating the bellows element from direct contact with the flow and as a result eliminating flow induced vibration, minimizing pressure loss, and creating dead air space between the bellows that insulates the bellows. Flow velocity and operating temperature are important for calculating the correct liner thickness and construction. Standard EJMA liners are rated to 100 FPS at 200 F. Most exhaust and air applications exceed these values requiring specially calculated liners. Thermal expansion applications typically include large axial motions with limited to no lateral when anchors are mounted to the pipe or duct centerline. To maximize flow and minimize pressure drop when liners are ordered, the standard liner ID is set to allow ¼” lateral, or the lesser lateral rating, when used with schedule Standard pipe. For greater lateral offset, or additional liner assistance, consult Hyspan.
Hyspan installed flow liners follow the recommendations outlined in the Standards of the Expansion Joint Manufacturers Association (EJMA) summarized as follows:
- EJMA maximum flow without a liner for gaseous service is: 21 FPS for 3” NPS, 28 FPS for 4” NPS, 40 FPS for 5”, and 48 FPS for 6” NPS and larger. Above these values liners are required, advise velocity and operating temperature.
- Standard liners are rigidly attached on the upstream end of the expansion joint and open on the downstream end. If reverse flow conditions exist, the liner thickness must be very heavy gauge or a telescoping design should be used.
- If the expansion joint is installed is a vertical run and the flow is upward, drain holes should be added at the lowest point of the liner to avoid trapped liquid.
- Unless a special oversize bellows design is used, the flow liner will intrude into the pipe or duct flow path. If the expansion joint motion is axial only this intrusion will be minimal, and the liner inside diameter may be comparable to the adjacent pipe or duct.
- Unless a special oversize bellows design is used, the flow liner will intrude into the pipe or duct flow path. If the expansion joint motion is axial only this intrusion will be minimal, and the liner inside diameter may be comparable to the adjacent pipe or duct.
- Connectors designed for axial compression with flow liners must be designed so that the liner does not extend beyond the end of the joint, or the downstream pipe is cleared when the liner protrudes – see illustration.
Some applications require all stainless steel construction. These may include high-temperature air, specialty exhaust, wastewater treatment plant digester gas and process air piping, and cryogenic liquid Helium escapement piping for MRI machines. Note: for cold temperature applications the expansion joint undergoes extension and must be preset for reversed motions. Consult Hyspan for assistance.
Series 2529-2531 is manufactured from all 304/304L materials. Flanges are ½” (12mm) thick plate with ANSI/ASME 150# drilling. Weld ends are schedule 10S wall.
Series 2539-2541 is manufactured from all 316/316L materials. Flanges are ½” (12mm) thick plate with ANSI/ASME 150# drilling. Weld ends are schedule 10S wall.
Higher pressures or extreme vibration often benefit from more plies than the 3-ply standard designs. Increased mass aids in dampening vibration. Many plies at different diameters, even if by a small amount, can provide frequency variance within the bellow. For higher pressures, vibration, or frequent failure applications consult Hyspan for design assistance.
High nickel alloys such as Inconel 625 and 617 are available for pressure, temperature, and corrosion resistance. In high-pressure applications, high-strength nickel alloys may also provide lower spring rates
Ordering Information
Refer to the illustrations (2509, 2510 & 2511, 2529, 2530, 2531, 2539, 2540, and 2541) above for the configuration required. Refer to the Design Data table for the rated motions, spring rates, lengths, and weights.
Example:
12″ nominal diameter
Single fixed flange,
Standard bellows material, 304 stainless steel
Standard Flange Material, A-36 carbon steel
3.0″ axial compression, 1.5″ extension allowed
(2509L-080-3 with Flow Liner)
Flow Liner
Installation Procedure
Operating Conditions: Series 2500 Laminated Bellows Expansion Joints are designed for applications where the pressure including tests does not exceed 15 psig. The design temperature varies with the configuration and materials of construction. Consult the purchase specification for the design temperature and the rated travel of the product purchased. Be certain that the system operating conditions and test conditions do not exceed the rated values.
Guides, Supports, Anchors: Series 2500 Laminated Bellows Expansion Joints are light weight construction. Guides, supports and anchors are important to prevent damage. Refer to the installation drawings for the correct location.
Flow Direction:The flow direction can be from either direction for Series 2500 expansion joints that do not include a flow liner. The flow direction for expansion joints with flow liners is from the fixed (welded) end to the free end and indicated on the exterior. Confirm that the joint is oriented correctly.
Shipping Restraints: External restraints are installed at the factory to ensure installation at the correct length and alignment. They are painted yellow and labeled – Shipping bars, remove after installation. Leave these restraints installed until after the installation of the expansion joint is complete – but they must be removed prior to pressure testing and operating the system. CAUTION: Shipping restraints may be installed by welding. Provide protection for the bellows element from cutting or grinding during removal.
Tie Rods: Tie rods, limit rods and control rods are devices that limit the travel of the expansion joint. They are available as an option on Series 2500 Laminated Bellows Expansion Joints. If they are included, be certain that the installation allows the design movement of the expansion joint.
Post Installation Inspection
1. Inspect the expansion joint for damage with close attention to the bellows element.
2. Is the expansion joint installed at the correct location; are the anchors, guides and supports installed in accordance with the system design?
3. Are the guides and supports free to allow the movement of the expansion joint?
4. Is the flow direction correct if a flow liner is installed?
5. Have the shipping restraints been removed?
Hyspan products are available from Sales Representatives and Distributors, or they can be purchased direct from the factory. The minimum factory order for open account customers, COD shipments, or bank card sales is $100.00 (USD). All major credit or debit cards are accepted. The minimum order for new account applicants is $100.00. Our Confidential Credit Application can be downloaded and forwarded to Hyspan for processing. All orders are subject to the following Terms and Conditions, and the above warranty applies to all material. Please read these documents.
Confidential Credit Application (13.9 KB), can be completed on line.
Downloads
General Downloads
- Catalog
- Approval Submittal
- Specifications
- Installation Instructions
- Warranty