Synthesis and Performance Study of the Nanomaterial Used to Stabilize the Reversible Invert Emulsion Drilling Fluid

Fei Liu; Yan Ling Wang

doi:10.4028/www.scientific.net/KEM.744.498

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HomeKey Engineering MaterialsKey Engineering Materials Vol. 744Synthesis and Performance Study of the...

Synthesis and Performance Study of the Nanomaterial Used to Stabilize the Reversible Invert Emulsion Drilling Fluid

Abstract:

The reversible invert emulsion drilling fluids can achieve performance of oil based drilling fluid and solve the disadvantages associated by the oil based drilling fluid. This reversible invert emulsion drilling fluid can also focus the advantages of both oil based and water based drilling fluids. The surfactant emulsifier is the currently reported emulsifier used in the reversible invert emulsion. The stability of the reversible invert emulsion drilling fluid is very poor that can be known from the low emulsion breaking voltage. The dosage of the surfactant emulsifier is so much that it can increase the drilling cost and environmental pollution. In this paper, organic amine surfactant-modified nanoparticles are prepared and the modified nanoparticle which can be used to stabilize the reversible invert emulsion drilling fluid is chosen. The stability of the reversible invert emulsion drilling fluid stabilized by modified nanoparticles (emulsion breaking voltage>1100V) is better than the reversible invert emulsion drilling fluid stabilized by surfactant (450V<emulsion breaking voltage<600V). The dosage of the organic amine surfactant-modified nanoparticle emulsifier (2.4 wt.%) is less than the dosage of the surfactant emulsifier (4 wt.%), hence, reducing the drilling cost and environmental threat. The reversible invert emulsion drilling fluid stabilized by modified nanoparticles perform similar to the reversible invert emulsion drilling fluid stabilized by surfactant in the aspect of oiliness cuttings treatment. The reversible invert emulsion drilling fluid stabilized by modified nanoparticles also perform well in the aspect of oiliness cuttings treatment.

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Key Engineering Materials (Volume 744)

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498-505

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.744.498

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Online since:

July 2017

Authors:

Fei Liu*, Yan Ling Wang

Keywords:

Drilling Fluid, Nanoparticle, Reversible Invert Drilling Fluid, Reversible Invert Emulsion

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References

[1] J. J. Salager, A. Forgiarini, L. Marquez, et al. Using emulsion inversion in industrial processes. Adv. Coll. Interf. Sci. 108/109 (2004) 259-272.

Google Scholar

[2] A. Patel, S. Ali. New Opportunities for the Drilling Industry through Innovative Emulsifier Chemistry. SPE 80247, (2003).

DOI: 10.2118/80247-ms

Google Scholar

[3] S. G. Popov. The Innovative Approach to Use of Emulsion Drilling Fluid - Reversible Inverted Drilling Fluid. SPE 168661, (2013).

DOI: 10.2118/168661-ru

Google Scholar

[4] A. D. Patel, F. B. Growcock, Reversible invert emulsion drilling fluids: controlling wettability and minimizing formation damage. SPE 54764, (1999).

DOI: 10.2118/54764-ms

Google Scholar

[5] S. Melle, M. Lask, G. G. Fuller. Pickering Emulsions with Controllable Stability. Langmuir, 21 (2005) 2158-2162.

DOI: 10.1021/la047691n

Google Scholar

[6] R. A. Gelman, J. C. Harrington, K. A. Vaynberg. Insight into the Inversion Mechanism of an Inverse Polymer Emulsion. Langmuir, 24 (2008) 12727-12729.

DOI: 10.1021/la8013656

Google Scholar

[7] A. Pizzino, M. P. Rodriguez, C. Xuereb, M. Catte, E. Van Hecke, J. M. Aubry, J. L. Salager. Light Backscattering as an Indirect Method for Detecting Emulsion Inversion. Langmuir, 23(10) (2007) 5286-5288.

DOI: 10.1021/la070090m

Google Scholar

[8] E. S. Read, S. Fujii, J. I. Amalvy, D. P. Randall, S. P. Armes. Effect of Varying the Oil Phase on the Behavior of pH-Responsive Latex-Based Emulsifiers: Demulsification versus Transitional Phase Inversion. Langmuir, 20 (2005) 1662.

DOI: 10.1021/la047603z

Google Scholar

[9] J. L. Salager, L. Marquez, A. A. Pena, M. Rondon, F. Silva, E. Tyrode. Current Phenomenological Know-How and Modeling of Emulsion Inversion. Ind. Eng. Chem. Res, 39 (2000) 2665-2676.

DOI: 10.1021/ie990778x

Google Scholar