SPE Reservoir Evaluation & Engineering
Volume 14, Number 4, August 2011, pp. 485-492

SPE-138521-PA

Flow-Rate Behavior and Imbibition in Shale

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DOI  More information 10.2118/138521-PA http://dx.doi.org/10.2118/138521-PA

Citation

  • Wang, D., Butler, R., Liu, H., and Ahmed, S. 2011. Flow-Rate Behavior and Imbibition in Shale. SPE Res Eval & Eng  14 (4): 485-492. SPE-138521-PA. doi: 10.2118/138521-PA.

Discipline Categories

  • 6.9.4 Oil Sand/Shale/Bitumen

Keywords

  • Shale, Flow Behavior, EOR, Imbibtion

Summary

As part of our investigations of a new chemical imbibition idea (using surfactant or brine formulations) to stimulate oil recovery from shale, we are studying oil flow through and, especially, brine intake into shale to displace oil. Our first studies in this area focused on an outcrop shale, specifically the Odanah member of Pierre shale in North Dakota, USA. We studied porosity, permeability to oil, permeability to water, and spontaneous brine intake for the Pierre shale. We found that porosities for Pierre shale cores were relatively high--from 25 to 35%. Porosities for our measurements of Bakken cores averaged less than 3%. Bakken oil imbibed into dry Pierre shale cores (up to 5 mm in thickness) to the same extent as could be achieved by forced injection of oil (i.e., achieving the same oil saturations for both processes). Permeability to a clean mineral oil (Soltrol 130TM) was higher than for Bakken oil--apparently because of deposition of wax/asphaltenes/particulates on the Pierre core faces when injecting Bakken oil. Permeability to oil for Pierre shale cores (with no water present) ranged from 3.32×10-5 to 2.19×10-4 md when injecting Bakken oil and from 4.85×10-4 to 2.34×10-3 md when injecting Soltrol 130. Permeability to Bakken oil for a Bakken core (with no water present) averaged 4.84×10-4 md. In Pierre shale and Bakken cores with thicknesses ranging from 0.65 to 5 mm, permeabilities were basically independent of flow rate, in agreement with expectations from the Darcy equation. Saline brine spontaneously entered into oil-saturated Pierre cores, yielding recovery values up to 41% of original oil in place (OOIP). During exposure to brine, our results indicated an increase in permeability--presumably by mineral dissolution during forced brine injection and by cracking (possibly caused by clay swelling) during spontaneous brine intake. This result is encouraging for the application of imbibition to enhance oil recovery from shale. Before these studies, we feared that exposure to brine might reduce shale permeability because of clay swelling. The laboratory results will help during a current study of surfactant and brine imbibition in the Bakken formation.

© 2011. Society of Petroleum Engineers

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History

  • Original manuscript received: 26 October 2010
  • Meeting paper published: 13 October 2010
  • Revised manuscript received: 17 February 2011
  • Manuscript approved: 15 March 2011
  • Published online: 3 August 2011
  • Version of record: 15 August 2011