Research on Efficient Polymer Dissolving Technology for Hydrophobically Associating Polymer Flooding on Offshore Platform

Yue Jun Zhu; Jian Zhang; Wen Sen Zhao; Shan Shan Wang; Bo Jing; Fan Xue Meng; Hong Zhang

doi:10.4028/www.scientific.net/AMM.670-671.290

Paper Titles

Microstructure and Corrosion Resistance of TiO₂ Films on 316L Using Hydrothermal Method
p.271

Preparation Process and Mechanism of CuO-MnO₂-TiO₂-V₂O₅ in the Metallic Luster Glaze
p.275

Functions of SiO₂-Shells in Core-Shell Structured Particles
p.279

Development of Metallurgical Processing Technology the Titanomagnetite Concentrate of the Tebinbulak Deposit
p.283

Research on Efficient Polymer Dissolving Technology for Hydrophobically Associating Polymer Flooding on Offshore Platform
p.290

Research of Coalbed Methane Fracturing Crack Initiation and Propagation Law
p.295

Research of Aluminosilicate Refractorial Erosion Process on the HCL in Blast Furnace Gas
p.300

Dyeing of Bamboo Viscose Fiber with Gardenia Yellow and Sodium Copper Chlorophyll
p.305

The Effect Nucleating Agent on Open-Celled Morphology of Polymer in Vibration
p.309

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 670-671Research on Efficient Polymer Dissolving...

Research on Efficient Polymer Dissolving Technology for Hydrophobically Associating Polymer Flooding on Offshore Platform

Abstract:

In order to apply the technique of polymer flooding to the offshore oilfield, some contraventions (the large well spacing, the high salinity formation water, the narrow production platform space, the limited load capacity, the slow dissolution of hydrophobically associating polymer, the voluminous existing polymer injection equipment) must be faced. In order to resolve the problems, a study on the efficient polymer dissolving technology for hydrophobically associating polymer flooding on offshore platform was conducted. The principle of polymer rapid dissolution was analyzed on its restrictive factors. By comprehensive utilization of multi-disciplinary angle of studying from polymer materials, fluid mechanics, et al, the efficient polymer dissolving technology was formed by means of compulsory stretching and water logging for polymer molecular chains, and break through the "bottlenecks" of polymer rapid dissolution. The designed dispersing & dissolving equipment cut down the polymer dissolution time from 60 min to 40 min. Meanwhile, the auto-unloading device, metering device, curing system, injection system, and automatic control system were optimized. Compared with the original equipment, the novel one’s occupied area and operating weight decreased by 21% and 37%, respectively. The efficient injection allocation technology was applied to the polymer flooding pilot testing in Bohai bay so as to provide key technology and equipment support for cumulative incremental oil 395×10⁴ m³ (up to June, 2014), incremental output value 12 billion yuan (estimated by the barrel oil price $90).

You might also be interested in these eBooks

Applied Mechanics, Materials and Manufacturing IV

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 670-671)

Pages:

290-294

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.670-671.290

Citation:

Cite this paper

Online since:

October 2014

Authors:

Yue Jun Zhu*, Jian Zhang, Wen Sen Zhao, Shan Shan Wang, Bo Jing, Fan Xue Meng, Hong Zhang

Keywords:

Compulsory Stretching, Efficient Polymer Dissolving, Hydrophobically Associating Polymer, Polymer Flooding, Water Logging

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Y. Wang, Z. B. Ye, Z. Shu and J. Pu: Offshore Oil, Vol 27, No 2 (2007), p.42.

Google Scholar

[2] R. S. Feng, Y. J. Guo, J. L. Ma, X. S. Xue, Y. Wang, A. H. Li: Oil Drilling & Production Technology, Vol 28, No 5 (2006), p.34.

Google Scholar

[3] Z. Shu, J. Pu, Z. B. Ye: Oil-Gasfield Surface Engineering, Vol 28, No 7 (2009), p.5.

Google Scholar

[4] Y. J. Guo, R. S. Feng, J. L. Ma, Z. Shu, H. B. Niu: Oil Drilling & Production Technology, Vol 28, No 6 (2006), p.42.

Google Scholar

[5] X. Z. Yu, S. L. Li, X. W. Qiao, Z. H. She: China Petroleum Machinery, Vol 31, No 4 (2003), p.41.

Google Scholar

[6] Y. Hu, W. C. Yang, J. F. Shen, Z. H. Sun, T. Yu, X. Q. Xin, X. W. Wang: Oil Field Equipment, Vol 34, No 2 (2005), p.51.

Google Scholar

[7] B. Jiang, in: Applied Study of New-type Polymer Hydrolyzation Mixer and Numerical Simulation of the Non-newtonian Fluid in A Stirred Tank, Ph.D. Dissertation of Tianjin University (2005).

Google Scholar