New technologies such as the centrifugal winding method and improved GPI screw joints have expanded the application performance and research results of fiberglass reinforced plastic pipes over their long-term development. This study describes a strength design method for new oil well pipes, which are required for untapping deep oil wells as existing oil and gas fields become depleted. The durability of these pipes must exceed 30 years. Here, we quantified the withstanding pressure (100 MPa), depth (7000 m), heat resistance (250°C) and the pH of the corrosion resistance (pH = 2). We also propose a strength design method that specifies new OCTGs for a global standard; namely, the Global Oil & Gas Pipe Institute (GPI) standard.
| Published in | International Journal of Oil, Gas and Coal Engineering (Volume 3, Issue 1) |
| DOI | 10.11648/j.ogce.20150301.11 |
| Page(s) | 1-12 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2015. Published by Science Publishing Group |
OCTG, EOR, Oilfield, FRP Pipe Design Method, Joint Coupling, Corrosion Resistance
| [1] | Takashi Shimosakon, Shinichi Tamura, Yoshinori Nishino,“GPI standard Corrosion FRP High Pressure Pipes for Oil & Gas Well (Design standard of GPI standard Piping Joint) ‘Commentary’, The Piping Engineering,vol.56, no.9,pp.17-25, 2014. |
| [2] | Yoshinori Nishino, About the long distance FRP pipe, The Piping Engineering (Requested paper HA05-20, 1985) Japan Industrial Publishing Co., Ltd. |
| [3] | Nishino,Yamamoto,Uda,Kanazawa, Studies on the secondary adhesive strength of FRP pipe [double wraped] joint factor, Reinforced Plastics, 28-10 (1984), 424-429. |
| [4] | Y. Nishino, M. Yamamoto, T. Uda: FRP pipe joint design method, Reinforced Plastics,30-2(1984), 52-58 |
| [5] | Nishino, Yamamoto, Uda, Kanazawa, Nonlinear analysis of macroscopic finite element method of FRP pipe joint, Reinforced Plastics,28-3(1982),390-402 |
| [6] | Nishino,Yamamoto, Uda, Kanazawa, Studies on secondary adhesive strength of FRP pipe joint, Reinforced Plastics28-2(1982),390-402 |
| [7] | Y. Nishino, M. Yamamoto, T. Uda: Experiments on Peeling Off of Reinforcement Layers from Inner Surface of FRP Pipe Due to water Flow Part l: Peel off characteristics neglecting aging deterioration. The journal of the Textile Machinery society of Japan, Transactions, 33-3(1987) |
| [8] | T. Shimosakon, T. Iwatani, R. Takeda, S. Tamura, and Y. Nishino, "Toward the GPI standard: Evaluation method of FRP high pressure pipes for oil and gas well use, Global Business Society,pp.65-74, vol.2, no.1, 2014. |
| [9] | Toshiharu Iwatani, Masaki Nishino, Yoshinori Nishino, Yasuhiro Iguchi, Takio Shimosakon, Shinichi Tamura: Design Method of API High Pressure Pipe, Proc. of The Sixth Korea-Japan Joint Symposium on Composite Materials, pp.22-23, Pohang, Korea (Oct.31-Nov.2,2007) |
| [10] | Takashi Shimosakon, Toshiharu Iwatani, Pushpendra Kumar, Yutaka Oku, Shinichi Tamura, Yoshinori Nishino, "Technology development for revival of the corroded oil well casing: Development of dual casing pipe," International Conference on Composites for 21th Century: Current and Future Trends (ICC-CFT2011), Bangalore, India |
| [11] | Takashi Shimosakon, Toshiharu Iwatani, Pushpendra Kumar, Shinichi Tamura, Yoshinori Nishino, "Screw joint parts for high pressure and low cost FRP pipes," Proceedings of International Conference and Exhibition on Reinforced Plastics (ICERP 2011), March 2-4, 2011, Mumbai, India. |
| [12] | Shinichi Tamura, Yoshinori Nishino, "Towards the GPI Standard," 1st International Symposium on GPI Standard (GPI 2013), Osaka, pp.87-92, March 2, 2013. |
| [13] | T. Iwatani, T. Shimosakon, R. Takeda, S. Tamura, and Y. Nishino, "Toward the GPI standard: Evaluation method for oil and gas well FRP high pressure pipes,"1st International Symposium on GPI Standard (GPI 2013), Osaka, pp.93-106, March 2, 2013. |
| [14] | Takashi Shimosakon, Toshiharu Iwatani, Ryo Takeda, Shinichi Tamura, and Yoshinori Nishino, “Basic joint design of anti-corroding high pressure pipes for oil well: Tolerance of GPI pipes,” 2nd International Symposium on GPI Standard (GPI-2 2013), pp.35-40, 2013. |
| [15] | Hiroyuki Sugiyama, Toshiharu Iwatani, Takashi Shimosakon, Shinichi Tamura, and Yoshinori Nishino, “Bonding strength of FRP pipe joint,” 2nd International Symposium on GPI Standard (GPI-2 2013), pp.41-44, 2013. |
| [16] | Takashi Shimosakon, Taiga Tatsumi, Rui Nishino, Shinichi Tamura, Yoshinori Nishino, Study on oil well pipe traceability system by IC chip label (first report), 5th Symposium of Global Business Society, pp. 106-171. |
APA Style
Takashi Shimosakon, Masaki Uhara, Taiga Tatsumi, Shinichi Tamura, Yoshinori Nishino. (2015). Design Method of FRP Pipe for Oil Well Frontier. International Journal of Oil, Gas and Coal Engineering, 3(1), 1-12. https://doi.org/10.11648/j.ogce.20150301.11
ACS Style
Takashi Shimosakon; Masaki Uhara; Taiga Tatsumi; Shinichi Tamura; Yoshinori Nishino. Design Method of FRP Pipe for Oil Well Frontier. Int. J. Oil Gas Coal Eng. 2015, 3(1), 1-12. doi: 10.11648/j.ogce.20150301.11
AMA Style
Takashi Shimosakon, Masaki Uhara, Taiga Tatsumi, Shinichi Tamura, Yoshinori Nishino. Design Method of FRP Pipe for Oil Well Frontier. Int J Oil Gas Coal Eng. 2015;3(1):1-12. doi: 10.11648/j.ogce.20150301.11
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Download@article{10.11648/j.ogce.20150301.11,
author = {Takashi Shimosakon and Masaki Uhara and Taiga Tatsumi and Shinichi Tamura and Yoshinori Nishino},
title = {Design Method of FRP Pipe for Oil Well Frontier},
journal = {International Journal of Oil, Gas and Coal Engineering},
volume = {3},
number = {1},
pages = {1-12},
doi = {10.11648/j.ogce.20150301.11},
url = {https://doi.org/10.11648/j.ogce.20150301.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ogce.20150301.11},
abstract = {New technologies such as the centrifugal winding method and improved GPI screw joints have expanded the application performance and research results of fiberglass reinforced plastic pipes over their long-term development. This study describes a strength design method for new oil well pipes, which are required for untapping deep oil wells as existing oil and gas fields become depleted. The durability of these pipes must exceed 30 years. Here, we quantified the withstanding pressure (100 MPa), depth (7000 m), heat resistance (250°C) and the pH of the corrosion resistance (pH = 2). We also propose a strength design method that specifies new OCTGs for a global standard; namely, the Global Oil & Gas Pipe Institute (GPI) standard.},
year = {2015}
}
TY - JOUR T1 - Design Method of FRP Pipe for Oil Well Frontier AU - Takashi Shimosakon AU - Masaki Uhara AU - Taiga Tatsumi AU - Shinichi Tamura AU - Yoshinori Nishino Y1 - 2015/03/13 PY - 2015 N1 - https://doi.org/10.11648/j.ogce.20150301.11 DO - 10.11648/j.ogce.20150301.11 T2 - International Journal of Oil, Gas and Coal Engineering JF - International Journal of Oil, Gas and Coal Engineering JO - International Journal of Oil, Gas and Coal Engineering SP - 1 EP - 12 PB - Science Publishing Group SN - 2376-7677 UR - https://doi.org/10.11648/j.ogce.20150301.11 AB - New technologies such as the centrifugal winding method and improved GPI screw joints have expanded the application performance and research results of fiberglass reinforced plastic pipes over their long-term development. This study describes a strength design method for new oil well pipes, which are required for untapping deep oil wells as existing oil and gas fields become depleted. The durability of these pipes must exceed 30 years. Here, we quantified the withstanding pressure (100 MPa), depth (7000 m), heat resistance (250°C) and the pH of the corrosion resistance (pH = 2). We also propose a strength design method that specifies new OCTGs for a global standard; namely, the Global Oil & Gas Pipe Institute (GPI) standard. VL - 3 IS - 1 ER -
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