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Soluforce

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Soluforce is a brandname of Pipelife for a Reinforced Thermoplastic Pipe (RTP).

Introduction

Soluforce is an RTP, which is a flexible pipe, supplied in long length coils up to 400m length and pressure ratings from 30 to 90 bar. In the last few years, this type of pipe has been acknowledged as the standardised solution for oilfield flowlines and also recently used offshore for water injection risers and oil flowlines.[1]

A very great advantage of this pipe is also its very fast installation time compared to steel pipe as speeds up to 1000 m/h have been reached installing RTP in ground surface.[2]
The pipe mainly benefits applications where steel fails due to corrosion and installation time is an issue.[3] Beside the application for oil transportation, this pipe is also applied for gas transport lines.[4]

Production

The Soluforce RTP is a three layer pipe construction:

  1. A HDPE liner pipe
  2. The reinforcement layer, typically Aramid (Twaron or Kevlar)
  3. The HDPE protective outer layer for UV, damage and abrasion protection

Typical applications

Soluforce is used for the following applications:

  • Oil field flowlines
  • Oil field waste water disposal lines
  • Oil field injection lines
  • Offshore water injection risers
  • Offshore oil flowlines[5]
  • High pressure Water transportation lines
  • High pressure gas transport lines[6]
  • Relining existing pipes[7]

Testing and Qualification

Solufoce RTP is tested and acknowledged by the following instances:

See also

References

  1. ^ Bert Dalmolen (2006). "Reinforced thermoplastic pipe: standardised composite solution for oilfield flowlines" (PDF). PetroMin (October): 30–37. Archived from the original (– Scholar search) on October 8, 2007. {{cite journal}}: External link in |format= (help); Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  2. ^ Soluforce (2006). "Soluforce lays Sumatra pipeline in a jiffy" (PDF). PetroMin (December): 32–34. Archived from the original (– Scholar search) on October 8, 2007. {{cite journal}}: External link in |format= (help); Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  3. ^ Pipelife (2004). "Fiber Reinforced Plastic Pipe Vies With Steel" (PDF). Pipeline & Gas Journal (December). Archived from the original (– Scholar search) on March 16, 2006. {{cite journal}}: External link in |format= (help); Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  4. ^ Dr. Kerstin Grass, Thüga AG (2005). "Einsatz von faserverstärkten Rohren im Gashochdruckbereich" (PDF). Krv Nachrichten. 2/2005: 17–20. Archived from the original (– Scholar search) on October 12, 2007. {{cite journal}}: External link in |format= (help); Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  5. ^ Rapra Conference Proceedings 2001 (2001). Oilfield Engineering with Polymers 2001: Exploring the Limits of Materials Technology, Session 7. Rapra Technology. ISBN 978-1-85957-300-6. Archived from the original on May 25, 2006. {{cite book}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)CS1 maint: numeric names: authors list (link)
  6. ^ Mannes Wolters (2006). "REINFORCED THERMOPLASTIC PIPELINE (RTP) SYSTEMS FOR GAS DISTRIBUTION" (PDF). Paper: 23rd World Gas Conference. Archived from the original (PDF) on September 28, 2007. {{cite journal}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
  7. ^ EOS Ruhrgas, Werner Wessing (2005). "Neue Kunststoffrohrsysteme fur den Hochdruckbereich" (PDF). Bregenzer Rohrleitungstage - bbr (Sept 2005): 12–13.

Bibliography

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