Introducing the Excalibur Shield Part 1 of 7.

We invented the world’s best internal pipeline corrosion assessment and maintenance system, the Excalibur Shield, utilizing weight loss coupon monitoring and internal sample collection for bullet proof pipeline analysis and treatment.

Through the collection of liquid and solid samples, analyzing for MIC (microbial induced corrosion), and monitoring coupon weight loss in MPY (millimeters per year), a highly accurate assessment of the internal pipeline condition arises, and if necessary, can be effectively mitigated with a highly optimized and localized chemical treatment program.

On this page, we provide everything you need to know about the Excalibur Shield including this Introduction, a 5-minute video Technical Overview, a Client Case Study, technical Specification Sheet, a 30-minute video NACE Presentation, our Customer List, and a Pilot Program designed for your company.

Enjoy your research, afterwards, we invite you to Request a Pilot Program Proposal.

Excalibur Shield Technical Overview Part 2 of 7.

Client Case Study Part 3 of 7.

In this case study, the Excalibur Shield was employed at a West Texas facility to collect solid samples, monitor MIC and weight loss coupon at a worst case scenario on a 20-mile long, 10” carbon steel condensate pipeline operating at 700 PSI with a 50% shut down rate.

The internal pipeline conditions were ideal for bacteria growth and induced corrosion. The weight lost coupon was being monitored by a retriever style coupon (Figure 1). The pipeline segment was suffering from a lack of internal monitoring, corrosion rate monitoring at the most severe locations, insufficient solid sampling, and water analysis.

 

internal pipeline corrosion case study
Figure 1

 

The pipeline operator was injecting biocide and corrosion inhibitors with minimal opportunity to monitor the effectiveness of the chemical treatment because sample gathering was only available while operating a solid urethane cleaning pig. The cleaning pig cycles were also not consistent with best practice for monitor scheduling, and there was no coordination between the field technician and corrosion technician during the pig run. The corrosion technician was only notified weeks after sample collection, and the corrosion control program lacked proper corrosion identification, mechanisms and optimization of chemical treatment programs.

 

table1

 

The only effective analysis was the retriever style coupon (Figure 2). The coupon weight was measured with a 2” x ¼” diameter, installed, exposed to the internal pipeline for 117-days, and resulting in a 0.17 MPY. The corrosion rate of a coupon is expressed in mils per year (MPY), or millimeters per year, or number of one-thousandths of an inch of metal loss from the coupon surface over a 1-year period.

The localized average corrosion and pitting rates from the coupon are categorized as low, moderate, high, and severe in accordance with NACE classification SP0775-2013 (Table 1). Ideal insertion of the coupon is at the 12 o’clock position and lowered to the 6 o’clock position in a horizontal pipeline. The placement of the coupon is often the most critical decision in obtaining meaningful internal corrosion information. In this case, only the tip of the coupon was exposed to the worst conditions in the pipeline.

 

internal pipeline case study
Figure 2

After discussion, our clients and operators agreed to select both a representative location and the most severe location with respect to corrosion. Many operational and environmental conditions influence the optimal selection of location, thus, this decision is best served by the entire team. We installed the Excalibur Shield at the worst case scenario, or low lying area of the carbon steel condensate 10” pipeline, and again at the end of the 20-mile segment where the pig receiver is at the six o’clock position (Figure 3 and Figure 4).

 

fig4. New Devices Added
Figure 3
fig5. Excalibur Shield Installed
Figure 4

 

The Excalibur Shield was easily installed on the existing infrastructure, requiring 13″ minimum clearance and no welding. The existing sump tank drainage piping system (Figure 3) was also used to install additional fittings to accommodate for the Excalibur Shield (Figure 4). After installation, we now had the capability of acquiring solids, liquids, and weight lost coupon at the worst case scenario.

The Excalibur Shield has a primary filtering system at the mouth of the 100 ml cavity, a coupon was installed inside the cavity with a secondary filter system surrounding the coupon. The outer portion has an octagon shape for easy removal, and includes a drain with ventilation valves for easy collection of fluids inside the cavity. The base adapter is outfitted with an O-ring seal for easy removal and secure sealing capability using a 316-L stainless steel body, mop 2000 PSI (Figure 4).

 

fig6. Solids above primary Filter
Figure 5
fig7. First pull 30 day exposure. 1.28 MPY. 30 days exposed. 6 oclock coupon
Figure 6

 

After 30-days exposure to the internal pipeline, the Excalibur Shield registered a 1.28 (MPY) at six o’clock, compared to the 0.17 (MPY) on the previous 117-day exposure using the retriever coupon (Figure 2), mincing a low lying area of worst case scenario. We also acquired fresh solid samples from inside the pipeline (Figure 5) and liquid samples (Figure 7) to establish the presence and concentration of bacteria colony counts in mm and grams, within the corrosion sampling location.

In this case, tests for acid producing bacteria (APB) and sulfate reducing bacteria (SRB) measured very low. Going forward, our clients now have the capability of collecting fresh liquid and solid samples internal to the pipeline.

 

fig8
Figure 7

 

After a second 30-day exposure, and the optimization of the pipeline inhibitor resulted in a 0.08 MPY (Figure 8). This case study demonstrates the retriever style coupon and irregular sampling prior to the Excalibur Shield was insufficient. Fundamental awareness and involvement were lacking and highlighted the need for education on all levels of the internal corrosion program.

In Summary, acquiring samples at regular intervals, corrosion rate monitoring with a coupon in a worst case scenario, fluid sampling, solid sampling and inhibitor treament all under the umbrella of the Excalibur Shield provided our client with a vastly improved corrosion control, assessment and monitoring program. Also, using the new wealth of data analysis, our client, technicians and chemical operators are much more confident in the internal pipeline corrosion program and optimization.

 

fig9. After optimization. Second pull, increased inhibitor quantities. 0.08 MPY after 30 days exposed.
Figure 8

Excalibur Shield Specification Sheet Part 4 of 7.

Excalibur Shield Components And Measurements

 

  1. Filter Cap, Plastic.
  2. Filter Screen Retainer, Plastic.
  3. Filter Disc Screen, SS 304, 60 and 100 mesh.
  4. Filter Cylinder Screen, SS 304 outside 100 mesh with inside support.
  5. Guard, Plastic.
  6. Filter Base Adapter, Plastic.
  • 316L Stainless Steel, 2000 PSI.
  • 1″and 2″ Pipeline Connections.
  • 1-to-3 coupon holder.
  • 1/2″ NPT Ball Valve.
  • 1/4″ NPT Needle Valve.
  • 100 ML Cavity.

View the technical specification sheet and material list:
Excalibur Shield Spec Sheet.

Joe Gallo NACE Presentation Part 5 of 7.

National Association of Corrosion Engineers (NACE) sectional meeting in Midland, Texas featuring Joe Gallo’s presentation on the Excalibur Shield Corrosion Systemal induced corrosion MIC analysis, and weight loss coupon for monitoring MPY metal loss.

Our Customer List Part 6 of 7.

cathodic protection companies
Cathodic Protection Solutions LLC Customer List.

Client Pilot Program Part 7 of 7.

Joe Gallo will make a fully paid trip to your site for the first installation of the Excalibur Shield with 2-days consulting included in the lower 48 United States.

For more information, please call (432) 230-6955