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Nano Coating Application for Corrosion Reduction in Oil and Gas Transmission Pipe: A Case Study in South of Iran

Journal Name:

  • International Journal of Science and Engineering Investigations

Publication Year:

  • 2012

Key Words:

Author NameUniversity of Author
Abstract (2. Language): 
Corrosion healthy in equipment of big industries such as oil industries as well as the quality of its transmission is an important and basic problem which disregarding of this phenomenon causes to stop production and consequently cost repairing. In this paper a kind of Nano-composite coating is used to prevent atmospheric corrosion and under insulation corrosion. This coating that consist of 30 percent of acrylic resin water based and 70 percent of Nano-composite as well as the nanometer tunnel (the thickness of tunnels is only a few Nano meters) covers the surface completely, so that there is not any microscopic space for air penetration (percolation). In addition to the hydrophobic properties will remove the moisture from the insulation surface. Thus this Nano-coating insulation prevents from reaching moisture oil and gas transfer pipeline, also this type of insulation is semi-transparent. In the other hands, its space beneath is visible each time. In order to test this Nano-coating, GM9540P test this has been approved as environmental corrosion test was used. After the first stage of test, the surface without coverage was corroded entirely, but the coated part was tested successfully without any effect of corrosion after 24 stages. Although there are numerous ways and materials to create resistance against corrosion, but insulation and anti-corrosion properties aren’t considered synchronous; the coverage used in this test includes both properties.
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  • 2
104-110
  • English

REFERENCES

References: 

[2] Baker Hughes INTEQ, (1995), “Drilling Engineering Workbook”, Baker
Hughes INTEQ, Houston, TX 77073,United States of America
[3] Bourgoyne, A., Millheim, K., Chenevert, M., Young, F., (1986),
“Applied Drilling Engineering”, Society of Petroleum Engineers,
Richardson,TX
[4] Lyons, E., (1996), “Standard Handbook of Petroleum and Natural Gas
Engineering”, Vol. 1, Gulf Publishing Company, 1090.,
[5] Cooper, G.A., Cooper, A.G., Bihn, G., (1995), “An Interactive
Simulator for Teaching and Research”, SPE 30213, Petroleum Computer
Conference, Houston, USA.
[6] Abouzeid, A.A. and Cooper G.A., (2001), “The Use of a Drilling
Simulator to Optimize a Well Drilling Plan”, Geothermal Resources
Council Annual Meeting, San Antonio, Texas, USA
[7] S. Torfi, S. M. Hosseini Nejad, E. Novieri, K. Ogbi, (2010)“Simulation
of Heat and Mass Transfer from a Droplet of Two-Pieces Solution with
Solvent Vapor by the Finite Volume Method”, 6th WSEAS International
Conference on APPLIED and THEORETICAL MECHANICS, Athens,
Greece.
[8] M. Salmanzadeh, S. Torfi, S.R. Mosavifar, (2010)“ Numerical
Simulations of Transient Flow Occurrence in Pipelines by Appropriate
Division Of The Pipeline Length Method”, 6th WSEAS International
Conference on APPLIED and THEORETICAL MECHANICS, Athens,
Greece.
[9] E. Novieri, S. Torfi, S.M. Hosseini Nejad, (2010)“ Bit Run Optimization
through Simulation: A Case Study”, 6th WSEAS International
Conference on APPLIED and THEORETICAL MECHANICS, Athens,
Greece.
[10] E. Novieri, S. Torfi, (2010)“Use Non-Rotating Adjustable Stabilizer to
Optimize a Directional Drilling Plan”, 6th WSEAS International
Conference on ENERGY, ENVIRONMENT, ECOSYSTEMS and
SUSTAINABLE DEVELOPMENT, Timisoara, Romania.

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