Description
In this Completion Diagnostic Integration Course, we will look at offset pressure, microseismic and DAS data to better understand the impact of completion designs and well spacing on child-child or parent-child interaction.
Students will learn to estimate Volume-to-First response, classify Fracture Driven Interactions in light of the completion design.
Distributed Acoustic Sensing Data will be analyzed, and students will learn how to make a basic interpretation of strain rate data.
Class Outline:
1. Offset Pressure Analysis; Volume to First Response and Signal Classification
- Review the Offset Pressure data available to understand if the data is suitable for child-child or parent-child interference analysis.
- How to extract the Volume-to-First Response, is the first derivative a good enough estimate?
- Analyze and characterize the pressure signal to understand the Fracture Driven Interaction Type and extract the Volume-to-Pick
- Cross reference the results to completion dat
2. Basic Interpretation of Fiber Data
- Assigning clusters to specific fracture re-activation or initiation and extraction of Volume to pick
- Azimuth derived from Stage Domain Corridors
3.Extract a microseismic derived fracture geometry on filtered subsets of events
- Filter events based on depth distribution and distance-time relationships
- Compute your P90 horizontal and vertical distances
4. Use of integrated diagnostic interpretation for RTA