Non-Destructive FRP Pipe Inspection - UTComp

Author: becky

Aug. 13, 2024

Non-Destructive FRP Pipe Inspection - UTComp

If you want something new, you have to stop doing something old.

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-Peter Drucker

Reliability engineers and industrial facility operators have long struggled with a lack of hard data to accurately assess the reliability of fiber-reinforced polymer (FRP) piping and other equipment.

Reliability engineers depend on data and systematic approaches to ensure the safe operation of the facilities and processes under their care. These professionals follow codes and standards that describe inspection technologies and methods to monitor the status of equipment to determine fitness for service and predict when maintenance is expected in order to preserve mechanical integrity.

Their work culture is increasingly changing from reacting to emergencies to using scientifically proven methods for predictive maintenance to protect human and environmental health and safety, while avoiding costly unplanned downtime and repairs.

Traditional FRP pipe inspection relies on hunches, intuition and guesswork

The downside of visual inspection

Traditional inspection of FRP equipment focuses on the state of the inner surface of the corrosion barrier. Assumptions are routinely made about the capability of the FRP material to perform its function, simply based on its appearance. This is despite that fact that no research or published material provides any scientific connection between the visual appearance of FRP and its reliability.

Without data and good information, backed by verified research results, decisions based on a visual inspection of the corrosion barrier rely by necessity on hunches, intuition and guesswork.

Destructive testing compromises the asset

The way to obtain more information &#; according to traditional theory &#; is to perform destructive tests of the FRP equipment. However, this approach damages the assets that reliability engineers are trying to preserve.

In the past, it was often not even possible to inspect FRP pipe unless a piece of the FRP was removed. Cutting a piece from process piping and repairing it usually requires that the work be completed according to a piping code such as ASME B31.3.  After the damage has been repaired, a hydrotest is required.  The total cost to the facility can be enormous, considering downtime, engineering, and repairs even before any evaluation of the pipe has started. Finally, any conclusions about piping condition hinge on the specific samples removed; if only one sample is removed, let&#;s hope it comes from the right place!

Historically, reliable operation has been preserved by repairing or replacing FRP from these subjective inspections, although the maintenance costs have been high and I have seen more than one shutdown extended because of extra time for FRP repairs.

The UltraAnalytix NDT solution for FRP pipe inspection

Reliability engineers now have a better way to thoroughly inspect FRP piping using proven non-destructive and non-intrusive ultrasonic methods.

UltraAnalytix® by UTComp uses conventional ultrasonic test equipment to take readings from the outer surface of piping at key locations where chemical attack and stress combine to weaken the pipe. The ultrasonic readings are then analyzed using our proprietary AI algorithm to determine how the pipe has changed and to identify if action is required.

The UltraAnalytix algorithm draws on millions of inspection data points for accurate Fitness for Service evaluations and precise Remaining Service Life forecasting. This provides a reliable, scientific basis for predictive maintenance decision-making to deliver maximum return on asset (ROA).

Want more information on GFRP Piping? Feel free to contact us.

Compare methods for testing FRP materials

UltraAnalytix NDT advantages

UltraAnalytix NDT evaluation of FRP pipe and other equipment includes:

  • Corrosion barrier condition
  • Structural changes occurring within the composite structure
  • Composite strength
  • Composite thickness
  • Damage caused by abrasion, corrosion and mechanical loads due to impact, poor supports, earthquakes, hurricanes and other factors.

Furthermore, inspection can be completed while the facility is operating, so there need not be any interruption of production. There&#;s no need to clean out equipment, store the contents, undertake risky confined space entry or cut test samples out of the asset, compromising structural integrity.

What about cost? Our results show the total cost of UltraAnalytix FRP pipe inspection is less than 10% of the cost of the conventional inspection methods when premature repairs and replacements are included. This means a steep reduction in overall inspection costs.  Based on the engineering results that are provided by UltraAnalytix, we are also seeing that FRP lasts longer than the traditional approaches claim, often at 90% reduction in maintenance costs. This data-driven approach is increasingly being used worldwide to provide accurate and reliable service-life forecasting for FRP assets.

Case study: Non-destructive evaluation of FRP piping at a phosphoric acid plant

UltraAnalytix validation

UltraAnalytix NDT has been thoroughly tested and validated worldwide. More than 200 industry leaders use UltraAnalytix for FRP asset inspection in chemical processing, oil and gas, pulp and paper, mining and other industries.

It&#;s the only ultrasonic non-destructive testing method to provide Fitness-For-Service assessments for FRP composites by inspectors who are certified in accordance with SNT-TC-1A practice.

Furthermore, a new Welding Research Council (WRC) Bulletin (WRC Bulletin 601 &#; &#;Assessment of Existing Fiber Reinforced Polymer Equipment for Structural Damage&#;) &#; published in May , now provides technical background and validation for this quantitative, non-destructive testing methodology.

In the Bulletin, I describe the challenges and solutions involved in determining the condition and fitness for service of aging FRP pressure vessels, piping and other equipment. WRC-601 provides guidance for including new methods for assessing FRP equipment in the consensus codes developed by the American Petroleum Institute (API) and American Society of Mechanical Engineers (API 579-1/ASME FFS-1), which are focused primarily on fitness for service assessments of metal pressure vessels and piping.

WRC Bulletin 601 is the first comprehensive resource that identifies the damage that occurs to the polymer and how to detect it for FRP pipe and other equipment after it is in service, to provide a rational, quantitative basis for determining fitness for service.

&#; Geoff Clarkson, P. Eng, FEC

UTComp Founder and Chief Technology Officer

For more information, please visit Composite GFRP Pipe.

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