, including the water/wastewater, mining, specialist chemical, and oil and gas industries. Pitting corrosion, galvanic corrosion and crevice corrosion can attack various sections of the pipeline, resulting in numerous failures such as leaks, loss of containment and loss of structural integrity.

In extreme cases, pipe flange corrosion can also be the source of catastrophic explosions — this is especially true in the 。

Pipeline corrosion can occur in almost any section of a pipeline; however, the most critical areas are the interfaces between adjoining pipes, in other words, where the flange faces meet. This zone, which is known for promoting corrosive environments, typically starts as a local problem and, if left unsupervised, can cause corrosion to propagate to other sections of the piping network.

In this article we will look at the most common causes of pipe flange corrosion, the effects of this corrosion, 。

Common Causes of Pipe Flange Corrosion

Most pipeline flange corrosion issues usually start in the small spaces between the sealing surface and the gasket, in a process known as crevice corrosion. (To learn more about this topic, read 内蒙古快3What’s the Inside Scoop on Crevice Corrosion?)

This type of corrosion, which is particularly prevalent in oil and gas pipelines operating near seawater, is defined as an intense localized corrosion that affects the gap or crevice between two connected metallic surfaces. During this event, corrosion takes place at the flange’s interior while the exterior remains uncorroded.

However, what makes crevice corrosion in flanges particularly dangerous in the oil and gas industry is the presence of sour gases and liquids at elevated temperatures within the pipeline that can lead to sour corrosion. Hydrocarbons with a high percentage of aggressive chemicals (e.g., hydrogen sulfide (H2S), sulfur dioxide (SO2) and chlorine) can help accelerate crevice and pitting corrosion within the pipe. (Pitting corrosion is discussed in the article Understanding Pitting Corrosion to Prevent Catastrophic Failures.)

The severity of the corrosion in flanges is usually dictated by environmental and operating conditions, as well as the properties of the fluid being transported by the pipeline.

Another potential cause of pipeline flange corrosion is galvanic corrosion, also known as bimetallic corrosion. This type of corrosion is defined as corrosion that occurs when dissimilar metals are in direct or indirect contact with each other.

In situations where pipelines of different materials are in contact with each other without proper isolation, galvanic corrosion can be the governing failure mechanism. (For more information see Why Do Two Dissimilar Metals Cause Corrosion?)

Figure 1. Photo of corrosion occurring in a pipe flange.

Figure 1. Photo of corrosion occurring in a pipe flange.

Issues Associated With Flange Corrosion

In the current economic environment, companies in the oil and gas industry are under constant pressure to increase the efficiency of delivery systems while minimizing shutdowns due to unplanned maintenance and repair activities.

In large refineries, which typically consist of several thousand feet of piping and joints, flange corrosion is not only costly but can also halt production, resulting in thousands of dollars (even millions depending on the industry) in lost revenue.

One of the main issues associated with pipeline flange corrosion is leakage. Corrosion leads to material loss in the flange face. This ultimately results in a compromised sealing surface, leading to loss of containment of the pipeline product. In industries that are responsible for transporting hydrocarbons, the consequences of this type of failure are often severe.

Leaked chemicals are hazardous to the environment. These chemicals can eventually make their way to natural waterways, where they can be detrimental to wildlife and plant life. Additionally, leaks due to compromised flanges can also pose a serious threat to human health, particularly in industries where pipelines are responsible for transporting toxic gases and liquids.

In the petrochemical industry, where pipeline contents are typically flammable and under high pressure, damaged flanges can also be the source of catastrophic fires and explosions.

In some cases, corrosion at the flange can cause metal fragments and corrosion products to travel downstream, compromising the quality of the transported product. Additionally, dislodged metal fragments can become stuck in other areas of the pipeline, promoting further galvanic corrosion and pitting. This downstream pitting corrosion can cause more leaks and compromise the overall structural integrity of the piping system as a whole.

Flange Corrosion Prevention and Repair Methods

Pipeline flanges present a unique challenge because prevention solutions must be able to resist corrosion while facilitating fasteners for maintenance and disassembly.

for preventing the formation of corrosion at the pipe flanges. A well designed and properly installed gasket seals the connection between two adjoining pipe flanges, thus preventing pipe fluids from accumulating in gaps and preventing crevice corrosion.

内蒙古快3Gaskets also serve to electronically isolate the connection between flanges. This isolation restricts direct contact between dissimilar pipe materials, preventing the formation of galvanic corrosion.

However, one of the most significant benefits of is its ability to improve the efficiency of impressed current cathodic protection systems (ICCP). In large piping networks, it is not practical or feasible to protect pipes using passive cathodic protection (CP) methods. In this case, ICCP systems are preferred.

In this corrosion protection system, an external power source delivers an electric current to drive the electrochemical process。 When protecting vast pipelines, isolation "breaks up" the electrical connectivity between adjoining pipes, separating them into smaller, more manageable sections。

This serves to optimize the current output from the ICCP's rectifier内蒙古快3 and improve the overall efficiency of the corrosion protection system.

In the event that the flange is damaged such that the interface between the gasket and the flange can no longer provide an adequate seal, then replacement or repair of the pipe flange is required to prevent the onset of corrosion。

Figure 1. Typical gasket/flange isolation solution.

Figure 2. Typical gasket/flange isolation solution.

Final Thoughts

Pipeline flange corrosion can lead to a multitude of issues ranging from product loss or contamination to potentially catastrophic explosions. If left undetected and unmanaged, flange corrosion can affect the piping network as a whole.

of this type of corrosion, the most popular of which is .

These devices ensure that flanges remain free of corrosion-causing fluids while keeping them separated from direct contact with adjoining metal flanges.