Society of Economic Geology

Geological modeling is used to create 3D models of sections of the crust. These 3D models are unique because they can create various types of simulations of rocks, and the types of cells in the rocks. The 3D models allow seismologists to forecast definite events in the crust of the earth plates moving in the areas of erosion of the crust, or a new growth in some areas.

Rasping surfaces are constructed in programs with various polygons that correspond to the different structures and surfaces. These geological models are built using polygonal modeling using a shell fabric to create a triangulated surface that is in specific area. 3D geological modeling includes many other aspects of the region, including, digenesis, structural geology, sedimentology and pale climatology.

These models are used to design any problems you may encounter, as well as potential weaknesses in the crust, which may cause difficulty. If an accident happens, the 3D model allows engineers to define the action of the different outcomes that may occur.

A full range of reservoir characterization of the modules include the ability to produce good correlation between the panels, and performs the traditional methods of mapping and 3D reservoir modeling and design, perfectly integrated into the simulation. Editor tool workflows automate the models and hot fixes, reducing cycle times and maximizing the efficiency of the project.

3D geological models can also be used to complete the calculations used in geostatistics. Several times, geologists are unable to calculate what is in the rock or the crust in some areas and it is therefore important to have software to calculate these variables. This data is not available on regular networks and should be evaluated.

The existing geological 3D modeling systems rely heavily on a large amount of well data, cross-sectional. However, it is well known that the geological data available is usually sparse and under sampled. In this paper, there is a proposal method of progressive refinement for 3D modeling of multi-source data integration. The method, of course, simulates the geological structures of geological data available, whether it’s sufficient or not.

3D models are learning tools in all businesses. Through the use of 3D models and 3D visualization, we are able to create concepts that can be easily learned by visual or tactile learners. The progressive refinement of more data and methods that increase the accuracy of 3D models is gradual and effective. In addition, the mechanisms used in the method for organizing and manipulating information to make an impact on the important thought of geologists is the interpretation of geological data and the method of 3D modeling.

3D modeling can be an effective way to understand geology. The process allows you to check the validity of geological assumptions or hypotheses Geoscientists in the project area have come up with and provides a mechanism to strengthen the existing data. 3D models also highlight gaps in knowledge and information within the project area.

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