Westside Webinar: Completion Design Optimization Utilizing Multiple Diagnostics Leads to Cost Reductions and Production Increases

 

Based on the successes of Extreme Limited Entry (XLE) in other basins, Great Western Petroleum (GWP) performed an experiment to test XLE in the first zipper group of a two-zipper group pad. The goal was to find a design that would yield the same production, but with less cost. Based on the results from zipper one, the best design could then be implemented on the same pad in the second zipper group. This allowed for a direct comparison of hydraulic fracturing designs, minimizing geologic impact. The primary focus in this study involved Distributed Acoustic Sensing (DAS) using wellbore fiber optic cable. An opportunity was seen to test the data quality of the latest deployment methods, specifically a pump-down single-use fiber optic cable. This DAS acquisition also provided offset strain and microseismic data in the first and second zipper groups. High level observations resulting from this project include: 1) The data quality associated with the single-use fiber looked comparable to the other fiber optic deployment methods; 2) The Uniformity Index was high for most designs; 3) Results from the offset strain and microseismic analysis from tighter and more clusters per stage showed less interference than with legacy designs; and 3) RTA showed that the production was better with the new hydraulic fracture design.

 

 Registration for this event closes at 12:00 PM CDT on Tuesday, May 17, 2022 

 

Student registration is FREE – To get access to the webinar link, send an email to Derek.Key@corelab.com with your valid student email address requesting to be added to the webinar. 

An emailwith the webinar login details will be emailed to you within 24 hours of the start of the event. 

*If you haven't received the email please check your SPAM folder or email the organizer for login details at least an hour before the start of the event. 

Location: At your computer

Date: May 17, 2022, noon - May 17, 2022, 1 p.m.