A SIMPLE INFILL WELL LOCATION SELECTION USING MACHINE LEARNING: A MULTILAYER INDONESIAN RESERVOIR CASE
In this paper, machine learning is used to help the user selecting infill well-drilling location with much easier, saving time, and effective way compared to what the industry has done with conventional simulators. A Voronoi diagram is involved in the process and the workflow is summarized in a pr...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/48985 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In this paper, machine learning is used to help the user selecting infill well-drilling location with much easier,
saving time, and effective way compared to what the industry has done with conventional simulators. A Voronoi
diagram is involved in the process and the workflow is summarized in a procedure. The procedure is very useful
for a field with a lack of data and all types of the reservoir, and in this case, a multi-layer Indonesian reservoir
type in Field X is chosen as a sample.
Machine learning, part of Artificial Intelligence, has been used in oil and gas industries to maximize their
productivity with less effort. As time goes by, several machine learning techniques has been used in many different
oil and gas industry sectors. One of the advantages of using machine learning in reservoir engineering applications
is they do not require specific physical models but can provide good estimations if there is enough data provided.
That is why this study can be useful for all types of the reservoir, in other words, in a reservoir of which exact
hydrocarbon production mechanisms are not clearly understood and lack of data.
Field X is one of the Indonesian oil fields which reservoirs have unique characteristics, known by having many
partial layers in each well. A conventional 3-D earth simulator is needed to calculate the current oil in place per
well to choose the new infill well candidates’ location. Nevertheless, the problems are, not every field has its most
updated 3-d and many reservoir properties are needed to do the simulations. The method of this study helps to
choose the new infill well candidates’ locations by just using machine learning and the Voronoi diagram. It doesn’t
need many physical data as the conventional 3-D earth simulator need and saves time. All the workflows are
packaged in a procedure, with hope for implementation on the industrial scale. |
|---|