Example Flow: Making Structure Grids
This article covers how to use a Flow to make structure grids using your formation tops, well headers, and deviations (optional). using Danomics constrained gridding tools that enforce geological consistency.
Note: if you are using deviation surveys, you must have already processed them as shown in this article.
The following tools are used in this order:
- PointsInput >> Used to select your formation tops database
- PointsSelect (optional) >> Used to filter down to the selected tops
- TopsToTVD >> Convert tops to TVD space using deviation surveys (if available)
- TopsToStructureGrid >> Constrained gridding process
- GridOutput >> Writes the grids to a .grid file
The PointsInput serves the purpose here of bringing formation tops into the Flow. This tool is flexible and can accept several different data types, such as headers, tops, and points.
The PointsSelect is optional - here we are using it to select a subset of our formations. This is useful when you are only interested in the major formations and not every subzonation. See the example here:
The TopsToTVD tool brings in the well headers and the deviation points and allows the formation top to be put in XYZ space. Note, this must be a processed deviations points file.
TopsToStructureGrid performs the gridding. You can adjust the cell count or cell size, select the gridding method, and add optoins for what happens with respect to pinchouts on a zone-by-zone basis. E.g., does a formation pinchout upwards against the overlying formation or downwards against the underlying formation.
Finally, we end the Flow with a GridOutput that writes the grids to a file.
Tips and Tricks
- All of the output is in Danomics multi-grid format. This means that it will create a grid for every formation in one go.
- Remember that your deviation surveys must be processed ahead of time!
- TopsToTVD must be applied even if you are not using deviations.
- Remember that the ELEVATIONS from your WDB are used in the gridding as the results are expressed in TVDSS. Therefore you need to ensure these are correct.
Related Insights
Sample data to get started
Need some sample data to get started? The files below are from data made public by the Wyoming Oil and Gas Commission. These will allow you to get started with petrophysics, mapping, and decline curve analysis. Well header data Formation tops data Deviation survey data Well log data (las files) Production data (csv) or (excel) Wyoming counties shapefile and projection Wyoming townships shapefile and projection Haven’t found the help guide that you are looking for?
NMR Interpretation Module
Purpose The NMR interpretation module allows users to calculate porosity, bound and free fluids from the measure T1 and T2 distributions from NMR tools. Primary Outputs Discussion In oil and gas well logging, the $T_2$ distribution is used as a high-resolution "map" of the formation's pore system. While a standard porosity tool tells you how much fluid is there, NMR tells you where that fluid is trapped and whether it will flow.
General Concepts in Flows
Because Flows will be a new concept to many of you it is important to understand the general concepts that flows are built upon. These concepts are: Many tasks are repetitive These tasks should be done consistently These tasks can often be split into small pieces. What Are Flows? Flows are batch processing system that combine Flow tools to perform operations consistently across a dataset, and are especially useful for repetitive tasks like gridding data.