Geological modeling of a stratified deposit with CAD-Based solid model automation

AUTOR(ES)

Eser, Ayten, Dağ, Ahmet

FONTE

REM, Int. Eng. J.

DATA DE PUBLICAÇÃO

2017-09

RESUMO

Abstract The planning stages of mining activities require many comprehensive and detailed analyses. Determining the correct orebody model is the first stage and one of the most important. Three-dimensional solid modeling is one of the significant methods that can examine the position and shape of the ore deposit. Although there are many different types of mining software for determining a solid model, many users try to build geological models in the computer without knowing how these software packages work. As researchers on the subject, we wanted to answer the question "How would we do it". For this purpose, a system was developed for generating solid models using data obtained from boreholes. Obtaining this model in an AutoCAD environment will be important for geologists and engineers. Developed programs were first tested with virtual borehole data belonging to a virtual deposit. Then the real borehole data of a cement raw material site were successfully applied. This article allows readers not only to see a clear example of the programming approach to layered deposits but also to produce more complicated software in this context. Our study serves as a window to understanding the geological modeling process.

Documentos Relacionados

• Geological modeling by an indicator kriging approach applied to a limestone deposit in Indiara city - Goiás
• EON: a component-based approach to automation of protocol-directed therapy.
• Endogenizing geopolitical boundaries with agent-based modeling
• Geophysical modeling in gold deposit through DC Resistivity and Induced Polarization methods
• A structural model for Alzheimer's β-amyloid fibrils based on experimental constraints from solid state NMR