Westside: Effect of Hydraulic Fracture Growth on Nearby Natural Fractures

Speaker Ali Daneshy, Consultant, Daneshy Consultants International
Ali Daneshy is President of Daneshy Consultants International and adjunct professor in the Cullen College of Engineering at the University of Houston, where he teaches a graduate course on hydraulic fracturing.  He has over 45 years of experience in the technology and application of hydraulic fracturing and has published numerous ...

Ali Daneshy is President of Daneshy Consultants International and adjunct professor in the Cullen College of Engineering at the University of Houston, where he teaches a graduate course on hydraulic fracturing.  He has over 45 years of experience in the technology and application of hydraulic fracturing and has published numerous papers on the subject.  He is co-Editor-in-Chief of the Hydraulic Fracturing Journal, a quarterly publication entirely dedicated to the technology of hydraulic fracturing.  At the present time his main focus is on research, consulting and teaching short courses related to horizontal well fracturing.

Full Description

This event will STILL be held at the scheduled time and place.

Nearly all fracturing literature attributes the productivity of unconventional reservoirs to the presence of a distributed fracture network within the body of the reservoir.  The hydraulic fracture is assumed to be the main conduit connecting these natural fractures to each other and to the wellbore.

Based on a rigorous analytical solution, this presentation reviews the conditions required to activate natural fractures that lie within the body of the formation and away from the propagating hydraulic fracture.  It will show that the most likely cause of the activation of these natural fractures is by tensile extension, which occurs when the natural fracture falls within the influence zone of the tip of the growing hydraulic fracture.  This causes an increase in the effective formation permeability around the main fracture, which ultimately results in increased well productivity.  This presentation will show that single fractures are more likely to cause natural fracture activation than multiple fractures created in plug and perf completions.  Furthermore, natural fractures closer to the hydraulic fracture are more likely to become activated by it.  Some of the findings in this presentation differ from commonly-held beliefs in the fracturing community.

Organizer Stephen Loving

Telephone:  (713) 328-2244          Email: stephen.loving@corelab.com


 


 


 


 

When?

Wed, Apr. 20, 2016
11:30 a.m. - 1 p.m. America/Chicago

How Much?

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Where?

Norris Westchase Center
9990 Richmond Ave., Suite 102
Houston, TX 77042
Parking for the Norris Conference Centers will be on the roof level of the garage only. The best way to get to the entrance ofthe parking garage is through the Richmond entrance. Once you pull into the parking lot, the entrance to the garage is straight ahead, where there will ...

Parking for the Norris Conference Centers will be on the roof level of the garage only. The best way to get to the entrance of
the parking garage is through the Richmond entrance. Once you pull into the parking lot, the entrance to the garage is straight ahead, where there will also be signs directing you to park on the roof.

Full Description

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