Research on Well Testing Interpretation Method of Polymer Flooding Considering Variety of Polymer Concentration in Reservoirs

Guangyu TU, Chunguang YANG, Chunguang YANG, Chunguang YANG, Xiaona CUI, Chunguang YANG, Xin LI, Xiaona CUI, Xiaona CUI, Xin LI, Xiaona CUI, Xin LI, Xin LI

Abstract


Combining the oretical analysis and actual production data statistics, the paper found that concentration of polymer solution at a point in the stratum had exponential relation with the distance away from injectors. Based on viscosity model considering shear degradation and polymer concentration, a non-Newtonian power-law fluid well test interpretation model is built. Then well test interpretation chart of polymer flooding is proposed by numerically resolving the new model. Example analysis shows that the polymer flooding well test interpretation method and chartprovide a theoretical and technical support for explaining reasonably formation parameters under conditions of polymer flooding and quantitatively evaluating the effects of polymer flooding.


Keywords


Concentration of polymer solution; Index; Viscosity model; Well testing interpretation method

Full Text:

PDF

References


[1] Liu, Y. (2004). Experimental study on enhanced oil recovery by high concentration polymer flooding (Doctoral dissertation). Daqing, China: Daqing Petroleum Institute.

[2] Li, S. Y., Li, S. T., & Chen, F. (2005). Development status and trend of polymer flooding for enhanced oil recovery. Chemical Industry Times, (8), 40-42.

[3] Zhao, J. S., Zhang, X., Ma, T. T. (2010). Experimental study on enhanced oil recovery by polymer flooding. Chemical Engineering of Oil & Gas, (1), 55-56, 64, 98.

[4] Yan, Z. H., Kou, L., & Ji, H. M. (2010). Study on enhanced oil recovery by polymer flooding. Liaoning Chmical Industry, (9), 945-947.

[5] Liu, Y. K., Wang, F. L., & Sui, X. G. (2008). Theoretical study on enhanced oil recovery by high concentration polymer flooding. Oil Drilling & Production Technology, (6), 67-70.

[6] Huang, B. (2013). Experimental study on enhanced oil recovery by variable percolation resistance system (Doctoral dissertation). Daqing, China: Northeast Petroleum University.

[7] Song, K. P., Wang, L., & Ji, B. Y. (1996). Non-newtonian and newtonian composite reservoir flow well testing interpretation method. Acta Petrolei Sinica, (1), 82-86.

[8] Song, K. P., Zhu, J. F., & Liu, Z. J. (1997). Well test interpretation of non-newtonian power law fluid in multi zone composite reservoir. Acta Petrolei Sinica, (2), 81-86.

[9] Liu, B. (2007). Non Newtonian seepage and well test analysis of thermal recovery of heavy oil (Doctoral dissertation). Chengdu, China: Southwest Petroleum University.

[10] Wu, M. L. (2007). Streamline numerical well testing interpretation method for multilayer reservoir (Doctoral dissertation). Beijing, China: China University of Petroleum.

[11] Li, Y. Y., & Cai, R. X. (2010). A concise analytical solution for the well testing model of non Newtonian power law fluid. Science & Technology Review, 18, 32-35.

[12] Yue, X. H., Wang, J. (2011). Application of well testing technology in polymer flooding reservoir. Modern Sciences, (1), 83.

[13] Wang, X. D., Li, J., & Cui, H. (2012). Well test model for carbonate reservoir. Liaoning Chmical Industry, 12, 1294-1297.

[14] Guo, H., Cheng, S. Q., & Yu, H. Y. (2014). Well testing analysis method for compound model of polymer flooding. Fault-Block Oil & Gas Field, (4), 504-508.

[15] Liu, Z. J., Sun, Z., & Song, K. P. (1996). Well test interpretation model for non Newtonian fluid flow in a bounded formation. Petroleum Geology & Oilfield Development in Daqing, (3), 63-66+80.




DOI: http://dx.doi.org/10.3968/8834

Refbacks

  • There are currently no refbacks.


Copyright (c) 2016 Guangyu TU

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.


Share us to:   


Reminder

 We are currently accepting submissions via email only.

The registration and online submission functions have been disabled.

Please send your manuscripts to aped@cscanada.net,or  aped@cscanada.org  for consideration. We look forward to receiving your work.

 

We only use three mailboxes as follows to deal with issues about paper acceptance, payment and submission of electronic versions of our journals to databases:
caooc@hotmail.com; aped@cscanada.net; aped@cscanada.org

 Articles published in Advances in Petroleum Exploration and Development are licensed under Creative Commons Attribution 4.0 (CC-BY)

ADVANCES IN PETROLEUM EXPLORATION AND DEVELOPMENT Editorial Office

Address:1055 Rue Lucien-L'Allier, Unit #772, Montreal, QC H3G 3C4, Canada.

Telephone: 1-514-558 6138
Website: Http://www.cscanada.net
Http://www.cscanada.org
E-mail:office@cscanada.net;  office@cscanada.org

Copyright © 2010 Canadian Research & Development Centre of Sciences and Cultures