how to choose flange size

09 Dec.,2024

 

how to choose flange size

Last time, we mentioned 15 different flanges; with so many flanges, how do we choose the correct flange to connect your pipes? This article will detail the five critical factors for selecting a flange.

If you are looking for more details, kindly visit Cencho.

1. Application Environment and Pressure Rating

When selecting flanges, consideration of the application environment and pressure rating is crucial. Here's a detailed description:

Application Environment:

  • Temperature: Firstly, it's essential to consider the temperature range of the pipeline system. High-temperature environments may require materials like alloy steel flanges to ensure stability and corrosion resistance.
  • Corrosiveness: Understanding the corrosiveness of the medium to the flanges is essential. Corrosive mediums require materials with good corrosion resistance, such as stainless steel or special alloy steel.
  • Environmental Conditions: Consider the environmental conditions the pipeline system is exposed to, such as outdoor exposure or humid environments. Choose materials and coatings with good weather resistance to extend the flange's lifespan.

different piping systems


Pressure Rating: 

  • Operating Pressure: Understanding the required operating pressure level of the pipeline system is critical. Select flanges with appropriate pressure ratings to withstand the system's operating pressure without leakage or rupture.
  • Design Pressure: Additionally, consider the design pressure of the pipeline system to ensure the selected flanges' pressure ratings not only meet the current operating pressure but also accommodate potential future pressure increases.
  • Emergency Situations: To account for potential emergencies, choose flanges with slightly higher pressure ratings than the operating pressure to provide a safety margin and prevent failure in unexpected situations.


2. Flange Material Selection:

The choice of material for the flange is crucial as it directly impacts its corrosion resistance, wear resistance, and temperature range. Common flange materials include carbon steel, stainless steel, and alloy steel. Select the appropriate material based on the properties of the medium, corrosion resistance, and temperature requirements.

  • Carbon Steel: Carbon steel flanges are among the most common choices due to their excellent mechanical properties, machinability, and cost-effectiveness. They are suitable for general industrial applications and low-temperature environments but may have limitations in high-temperature or corrosive environments.
  • Stainless Steel: Stainless steel flanges offer excellent corrosion resistance and mechanical properties, making them suitable for applications sensitive to corrosive media, such as chemical processing, food processing, etc. The choice of stainless steel flanges typically depends on the caustic nature of the medium and environmental conditions.
  • Alloy Steel: Alloy steel flanges have excellent high-temperature and corrosion resistance, making them suitable for high-temperature, high-pressure, and corrosive media pipeline systems. Alloy steel flanges are commonly used in refining, chemical, and energy industries but come with higher costs.
  • Cast Iron: Cast iron flanges are widely used in low-pressure, low-temperature, and general industrial applications due to their relatively low cost. However, cast iron flanges have poor corrosion resistance and mechanical properties and are unsuitable for some demanding environments.
  • Plastic: Plastic flanges can be an option for special applications, such as chemical transportation or corrosive media. Plastic flanges are typically made of polyethylene and polypropylene and offer good corrosion resistance. However, they may have limitations in high-temperature or high-pressure environments.

Flange material overview


3. Size and Specifications:

Ensure that the selected flange size and specifications match the requirements of the pipeline system. This includes outer diameter, inner diameter, flange thickness, number, and diameter of bolt holes. Inappropriate sizes and specifications may lead to installation difficulties or poor performance

how to measure flange size&#;

  • Nominal Diameter: First, measure the nominal diameter of the pipe, which is typically the outer diameter of the pipe that the flange connects to.
  • Flange Outer Diameter: Use a tape measure to measure the outer edge of the flange, the distance around the very perimeter of the flange.
  • Bolt Hole Center-to-Center Distance: Measure the distance between the centers of bolt holes that are directly opposite each other. This measurement is crucial for confirming the model and standard of the flange.
  • Bolt Hole Diameter: Measure the diameter of the bolt holes to determine the size of the bolts needed.
  • Number of Bolt Holes: Count the number of bolt holes on the flange.
  • Flange Thickness: Measure the flange from one side to the other, that is, the thickness from one face of the flange to the opposite side.

4. Connection Method

When choosing a connection method, you need to consider the specific requirements of the pipeline system, including sealing performance, load-bearing capacity, ease of installation and maintenance, and other factors. Depending on the needs, choosing the appropriate connection method can ensure the safe and reliable operation of the pipeline system.

flange connection

Weld Neck Flange:

It has a long tapered neck that enhances strength and supports heavier pipelines. It is also designed to withstand heavy stress conditions. The excellent stress distribution and smooth transition area make it ideal for high-temperature and pressure applications.

Application: Widely used in petroleum and natural gas pipelines, chemical plants, and power stations' high-pressure and high/low-temperature systems.

Slip-on Flange:

Slip-on flanges are easy to install and less costly. Limited by their ability to withstand pressure, they are unsuitable for high-pressure applications. The slip-on flange is connected to the pipe internally and externally by welding.

Application: Suitable for medium-pressure systems such as water supply and fire fighting systems and applications with low temperature and non-destructive fluids.

Blind Flange:

Blind flanges have no center hole and seal the ends of piping systems or pressure vessel openings. They are commonly used for industrial pressure testing or when the flow line needs to be blocked.

Application: For pipeline maintenance or where closing valves are insufficient to isolate the system.

Threaded Flange:

This flange has internal threads and can be directly screwed onto pipe ends with external threads. This type of connection can avoid welding and is suitable for situations where welding is inconvenient due to flammable, explosive, or high temperatures.

Application: Used in low-pressure and non-cyclic temperature changes, such as small-diameter cold and hot water systems and gas transmission.

Threaded

If you want to learn more, please visit our website safe and reliable stainless steel flanges.

Socket Weld Flange:

It is quicker to install than weld neck flanges and less costly. The socket weld flange is suitable for small-diameter pipes, and its internal welding design requires welding skills.

Application: Usually used in small-size high-pressure pipeline systems, commonly seen in the chemical industry and shipbuilding.

socket

Lap Joint Flange:

Used in conjunction with stub ends, it facilitates pipe alignment and installation. The "stub end" must be installed on the pipe to accommodate the lap joint flange. This design allows the flange to rotate freely without moving the pipeline, which is suitable for frequent disassembly.

Application: Mainly used in systems requiring frequent inspection disassembly, such as low-pressure corrosive fluid processing.

Ring Type Joint Flange (RTJ):

RTJ flanges have a circular groove in which a metal ring gasket is placed to maintain a robust seal. This design is meant to endure extremely high pressure and temperatures.

Application: Mainly used in oil exploration, refining, maritime, and high-pressure environments like deepwater offshore oil wells.

5. Flange Sealing

Sealing performance is a crucial consideration when selecting flanges, as it directly affects the safe operation of pipeline systems and the risk of media leakage. Here's a discussion on sealing performance:

  1. Sealing Surface: The sealing surface of flanges is a critical area for maintaining the seal between pipes. A well-designed sealing surface ensures tight contact between flanges, preventing media leakage. Therefore, the flatness and smoothness of the sealing surface are essential for sealing performance.
  2. Gasket Material: Gaskets are typically placed between flanges to fill the gaps between sealing surfaces and improve sealing performance. Choosing a suitable gasket material is crucial to ensure a good seal. Common gasket materials include rubber, iron, and polytetrafluoroethylene (PTFE), each with specific applications and advantages.
  3. Bolt Preload: Proper bolt preload ensures a tight connection between flanges, improving sealing performance. Insufficient bolt preload may result in gaps between flanges, affecting sealing performance, while excessive preload may cause gasket deformation or damage, reducing sealing performance.
  4. Media Properties: The properties of different media also affect sealing performance. Some corrosive media may affect the performance of gasket materials, leading to leakage. In contrast, high-temperature or high-pressure media may exert additional pressure and challenges on gaskets and sealing surfaces, affecting sealing performance.

Summary

When selecting flanges, it is necessary to consider multiple factors comprehensively to ensure the safe operation and stability of the pipeline system.

Firstly, it is vital to understand the pipeline system's application environment and pressure rating and choose flanges with suitable materials, sizes, and pressure ratings.

Secondly, sealing performance is crucial, and appropriate sealing surfaces, gasket materials, and bolt preload should be selected to prevent media leakage.

Additionally, the connection method is also an important consideration, and the appropriate one should be chosen according to the requirements of the pipeline system to ensure firm connections and good sealing.

How to Choose the Right Steel Flange for Your Project - Sumitec

How to Choose the Right Steel Flange for Your Project

For various uses, various types of Flanges are offered. You just need to pick a product related to the job requirements. The following factors affect the choice of materials for your use. This blog talks about some essential things you should think about when choosing steel flange manufacturer Texas.

Pipeline systems depend on flanges as they should be of highest quality. Numerous benefits exist for SS flanges, such as their high resistance to rust, longevity, strength, and heat. Stainless steel flanges can be used in many different industries, including oil and gas, chemicals, petrochemicals, food preparation, and pharmaceuticals.

Failure to choose high-quality flanges can cause leaks, system breakdowns, and safety risks. For low quality stainless steel flanges it will become difficult to handle heavy pressure and high temperatures in industrial settings, causing expensive repairs and downtime. The best stainless steel flanges must be bought to ensure long-lasting and reliable performance.

On most pipes, these are attached to the end with welding. These pipe fittings are made to special requirements and can be modified to meet design specifications. Choose from the different kinds of SS flanges on the market:

#1 SS Slip-on Flanges

For a slip-on flange to work, the pipe has to slide inside the flange, so the inside diameter of the slip-on  has to be bigger than the outside diameter of the pipe, used in situations involving low pressure. Instead of a weld neck, this type is used when cost or room is essential.

#2 SS Threaded Flanges

Put together without welding, so it&#;s easy to take apart. To keep the price low, this could be sent without a hub to reduce cost.

#3 SS Lap Joint Flanges

Used to connect stub end pipe. These are used where flanges can be rotated for ease in alignment of bolt holes of mating flanges.

#4 SS Socket -Weld Flanges

Littler diameters are used for high-pressure tasks like steam lines. Have internal welds that make them durable. The pipe&#;s hole and the flange&#;s bore are the same size, so the link is suitable for flow.

#5 SS Orifice Flanges

It is used for measuring liquids or gases, to give entry to a line. SS orifice flanges come in all standard sizes and they can be used with any type of flange material. Must be used on Weld Neck style flanges.

#6 SS Forged Flanges

Helps join two components together, making things stronger and making them easier to clean, check, and change. Types differ based on what they&#;re used for. Mainly used for high-pressure and temperature environments.

Quality Control and the Reputation of Suppliers

When looking for stainless steel flanges, make sure you pick a manufacturer with a good reputation and quality. Look for providers that have a history of making flanges that work well and have robust quality control systems in place. A trustworthy provider will also be able to help you choose the best flanges for your needs by giving you expert advice.

Standards For Flange

Different countries have rules about the sizes, shapes, and materials of flanges. Before you buy stainless steel flanges, make sure they meet the standards in your country so that they work better and more efficiently.

The company that makes and sells stainless steel flanges should have a good reputation and offer good products and services. To choose the right flange manufacturer, you can search different ones and read reviews  and view their production equipment. You can also get recommendations from co-workers or pros in the field that have experience with flanges.

The different ways that flanges are made give them different property traits. The two most popular ways to make flanges today are by casting and forging.  However, when picking the correct flange for your purpose, you should think about the pros and cons of both of these ways.

Making flanges by casting them is a simple method that results in high accuracy, lower production costs, and no size limits. Since the steel is melted to the near liquid state, there is a chance for porosity which can cause cracks or defects. Another disadvantage is they are not very weldable.

Forging process involves heating the steel to its plastic stage and put under a press to form it to the desired shape and dimensions. Forgings are much stronger than castings and have a defined grain structure which make them more suitable for use in higher pressure applications and are weldable to pipe and other components.

Regular Maintenance And Checks

Check flange joints for signs of damage or wear and tear on a regular basis. To get the best efficiency, do regular upkeep, like changing seals and cleaning nuts.

  • Be careful when you handle flange fittings so you do not damage them.
  • Bolting: Check frequently for signs of leaks and tighten as needed.
  • Pressure Class and Materials: Segregate loose flanges by material grade and pressure class,

Size And Class

It is important to remember that the flange&#;s size may be different depending on the part&#;s type and standard, like ANSI, API, or ASME. Standard measurement factors must be taken into account.

Resistance to Corrosion

People know that stainless steel is very resistant to rust, but different places need different amounts of resistance. Segregate all stainless materials to avoid carbon contamination which can cause rusting to occur. Take care when handling not to have them come in contact directly with carbon steel.

Quality Control and Tests

Look for manufacturers and providers with good reputations that follow strict quality control procedures. To make sure the stainless steel flanges work well and are reliable, they go through a number of tests, including visual inspection, hardness testing and non-destructive testing.

Conclusion

For pipe systems used in different industries, stainless steel flanges are necessary. You need to think about the flange&#;s size and features, as well as its material, type, standards, manufacturer and provider when choosing the right one for your project.

Contact the top steel flange manufacturer in Houston for more details.

The company is the world’s best ball valve and globe valve difference supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.