Cut Grooved Piping Systems - 5 popular applications
Cut Grooved Piping Systems - 5 popular applications
5 Most Common Uses for Grooved Piping Systems
Are you preparing to create a piping system? Trying to figure out what type of pipe, fittings, couplings, or pipe joints are best for the application at hand? Have you thought about utilizing groove cut pipe to get the job done? Cut grooving for pipe as it is often referred to, is a process where a groove is cut into the pipe so the wall will be smooth; thereby allowing whatever is being transported to pass without being obstructed. This in combination with grooved end fittings and grooved pipe couplings are used for creating grooved piping systems.
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Common applications that use grooved piping systems.
1. Seismic Applications
Are you working in an area that is prone to earthquake activity? Groove cut piping systems are highly recommended when designing a piping systems in seismic conditions. Why is this? One of the main benefits provided by a grooved piping connection is its ability to reduce vibration. When an earthquake occurs, very strong vibrations occur within the ground, which is where many water or oil piping systems reside.
With a typical piping system in which welding or soldering is used, strong vibrations can cause connection points to crack or break. If a grooved piping system is used, vibration can be reduced which then reduces the risk for cracks or breaks that create leaks within your piping system.
2. Fire Protection
Having a fire protection system is a must for commercial or industrial buildings in order to meet fire code regulations. It is important to ensure that these systems, such as overhead sprinklers, are always working in case of an emergency. Groove cut piping systems have become more and more popular in fire protection applications. The fact that grooved fittings or couplings do no need to be connected via welding. Over time, welded or soldered seams can break down and connections within the piping system can start to fail. To eliminate the risk of failed or broken seams, contractors have faithfully begun to use groove cut piping systems for fire protection applications.
3.Mining
When utilizing grooved cut fittings, couplings, or pipe for mining applications there are many benefits. Compared to other piping materials, selecting groove cut material can reduce your application cost up to 50%. Mining is an industry that brings in millions and millions of dollars across the country. In an industry that large, it is important to avoid or reduce down time as much as possible. With groove piping systems, maintenance and repairs are done much quicker, eliminating the long down time that would be required to re-weld or re-solder other materials. Also, without the need for welding, groove cut joints are able to expand and contract during temperature changes without breaking seams or welded connections.
4. Ship Building
Whether used for transporting material across the ocean, or providing a fun filled cruise for families, ships are used everyday. Inside the walls of a ship are tons and tons of piping systems. Some for water, some for fuel, and others for fire protection. These piping systems if not repaired quickly in the event of a broken or burst pipe can cause major problems, some of which can end catastrophically. Short repair time is a necessity to ensure the safety of all people or materials on the ship. How do you know if a pipe in a ship is about to break or burst? You dontuntil it happens. With that being said, groove cut piping systems are important as they provide reduced maintenance times of up to 66%.
5. Power Generation Applications
Power generation applications contain many forms. Furthermore nuclear, gas, or coal are just a few that require durable piping systems to create a safe and efficient transfer of power. Sometimes with power generation you may not be able to create a straight shot piping system. Groove cut piping supplies allow you to create a versatile piping system and maneuver around any obstacles that may come about. Once again, cost is reduced, repair time is reduced, and installation is quicker when using grooved piping systems. All of which, are very important in power generation applications.
Cut Groove Piping Supplier
As you can see there are a number of applications for grooved piping systems with cut groove pipe, grooved cut fittings and couplings etc. The pros at Detroit nipple works can help with questions and put together an order that will fit your particular application.
Also we can supply grooved fittings and couplings that are comparable to Victaulic at a substantially lower price! Finally please Contact us with questions or submit a request for quote online!
Posted In: Grooved Piping
Tags: Common uses for grooved pipe, Cut groove piping supplier, Grooved pipe couplings, Grooved pipe fittings, Grooved piping systems
Grooved Versus Flanged Connections
How pipe-joining methods affect system operation
Equipmentsuch as pumps and chillersis increasingly being designed with grooved inlets and outlets. Although the standard has been flanged in the past, manufacturers are recognizing the benefits of grooved pipe joining, not just for pre-sale equipment testing, but also for the performance and maintenance benefits that end users will realize. The grooved-pipe-joining method is a good choice for equipment connections and for utility and process piping systems within commercial and industrial facilities.
Grooved Basics
Grooved pipe joining employs a mechanical couplingconsisting of housings, an elastomeric gasket and nuts and boltsto join grooved-end pipe, valves, fittings, equipment and accessories.
The pipe groove is made by cold forming (roll grooving) or machining (cut grooving) a groove into the ends of a pipe. To assemble the joint, two grooved pipe endsor a pipe end and a valve or fitting, etc.are abutted. The gasket is positioned around the joint. The housings are placed over the gasket, and finally, the bolts and nuts are tightened to secure the housings together. In the installed state, the coupling housings encase the gasket and engage the grooves around the circumference of the pipe to create a leak-tight seal in a self-restrained pipe joint.
Rigid couplings provide a mechanical and frictional interlock onto the pipe ends sufficient to result in a rigid joint with characteristics similar to those of welded or flanged joints, because all the piping remains in strict alignment and is not subject to deflection during operation. Flexible couplings permit controlled linear and angular movement, which can accommodate thermal expansion and contraction, deflection, seismic movement and vibration.
The anatomy of grooved pipe joining
Quick Installation
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When testing equipment, manufacturers need a joining method capable of connecting the unit to a test loop that is quick but secure. Grooved couplings enable the quick connection of equipment to run these tests. With just two bolts to secure each couplingas opposed to the multiple bolts that are required for each flangemanufacturers can rapidly assemble the product and test it before it is sold to a client. With fewer bolts and typically no torque requirements, grooved piping is up to six times faster to install than flanging. This time savings is also beneficial when connecting the equipment and associated piping systems at the end users facility.
Once connected, many grooved systems are designed for visual inspection to ensure complete assembly. The joint is properly installed when the bolt pads meet metal-to-metal. Flanges, on the other hand, do not provide visual confirmation. The only measure to ensure proper assembly is to fill and pressurize the system and check for leaks.
Ease of Maintenance
The same characteristics of grooved systems that speed installationfewer bolts and no torque requirementsalso make system maintenance a quick task. To gain access to a pump or valve, for example, the two bolts of the coupling are loosened, and the housings and gasket are removed from the joint. In a flanged system, multiple bolts need to be removed. The same time-consuming bolt-tightening sequence required upon initial installation is also required upon reassembly of the flange.
Throughout the life of the system, flanging requires significant maintenance to sustain joint integrity. Pumps and other equipment frequently vibrate and are subject to noise in the piping system. For example, oscillatory forces can be generated due to the lack of balance of rotating components, such as in pump vanes. Although field balancing can reduce this, it requires specialized equipment, which can become difficult, expensive and impractical.
Piping connected to a pump using the grooved-pipe method
Flanged systems employ rubber bellows or braided flexible hoses to accommodate vibration. With time or overextension, these products can wear or fail, requiring replacement.
Vibration Dampening
Grooved couplings accommodate vibration without the need for specialty products that require periodic repair or replacement. The resilient elastomeric gasket contained within both flexible and rigid couplings aids in the dampening of noise and vibration. The design of the coupling enables the gasket to seal against the pipe, while the housing provides both space for the elastomeric material to flex and containment to prevent overstretching.
Flexible, grooved systems allow the pipe to move and vibrate within the coupling, localizing the vibrations generated by equipment and reducing the amount of noise transmitted through the piping system. The design of the grooved joint permits this movement without wearing out the gasket.
Testing commissioned by a grooved couplings and fittings manufacturer and conducted by Seattle-based SSA Acoustics LLP shows that grooved couplings provide greater vibration isolation and sound attenuation characteristics than flexible metal or elastomeric arch-type connectors. The ideal arrangement for accommodating equipment vibration is the placement of three flexible couplings in close proximity to the vibration source. The use of additional couplings, whether flexible or rigid, will further reduce the transmission of vibration.
System vibration and other forces can lead to joint problems in a flanged system. Flanging employs a series of bolts and nuts to compress a gasket between two flat-faced, flanged pipe ends. The torque on the bolts employs a high compressive load on the internal gasket, which can cause the gasket to adhere to one or both of the flanges. When the joint is disassembled, the gasket can tear, resulting in failure upon reinstallation. Furthermore, the bolts and nuts of the flanged union absorb system forces. With time, they can relax due to surges, system working pressure, vibration, expansion and contraction. When the bolts lose tension, the gasket can slip, which can result in a leak. Flange gaskets can take on compression with time, also resulting in leakage. To prevent or stop leaks, routine bolt and nut tightening is required.
The ability of grooved couplings to accommodate system vibration reduces the risk of joint issues. A coupling holds the gasket in precise compression from the outside of the pipe joint. While the bolts and nuts hold the housings together, the coupling itself is what holds the pipe together. The gasket absorbs system forces, not the bolts and nuts. Throughout the life of the system, the nuts and bolts do not require regular retightening and will not slip or relax, therefore maintaining a leak-tight seal. The gasket of a grooved coupling has a C-shaped, cross section seal that is durable and can handle significant compressive and cyclical loading. A system can be pressurized and depressurized repeatedly without fatiguing the rubber.
Grooved couplings accommodate vibration while flexible and rigid couplings dampen noise and vibration.
Alignment Ease
The evolution from flanged to grooved inlets and outlets on mechanical equipment and pumps is occurring for several reasons, including the previously mentioned assembly speed of couplings. Another important reason is the difficulty associated with flange bolt-hole alignment. The bolt-hole index on the equipment inlets and outlets must line up perfectly with the flange on the piping to be connected to the unit. Flange alignment cannot be adjusted in the field, which can lead to misalignment.
Grooved systems do not have this problem. No bolt-hole pattern has to be lined up, and a coupling can be oriented at any angle around the joint. The coupling can be free floated around the pipe in the field to provide easy access to the bolts, and in turn, simplify access to the equipment. In addition to eliminating misalignment issues during installation, a couplings 360-degree orientation capability coupled with its lower profile, compared to a flange, makes the installation of grooved systems ideal for confined spaces.
In summary, grooved piping systems are ideal for equipment connections because of their speed of installation, ease of maintenance and simplified alignment. These characteristics, coupled with additional benefitssuch as design versatility, safety and reduced total installed costsalso make grooved piping a good choice for joining utility and process piping systems.