3D geologic model of FARIM-SALIQUINHE phosphates mineralization.
Antonio M. Ferreira and Gilberto Charifo and Martim Chichorro and Jose C. Kulberg and Jose A. Almeida. ( 2009 )
in: Proc. 29th Gocad Meeting, Nancy
Abstract
This work is the first attempt to generate an output with Gocad software by the recently created 3D Geologic Modeling research group of CICEGe research centre (from FCT/UNL, Portugal). The objective of this work is to generate a 3D geologic model of the morphology and grades of the Farim-Saliquinhé sedimentary phosphate mineral deposit, located at Guiné-Bissau. The model uses borehole data and previous studies carried by BRGM and Sofremines, and the gOcad software as the main tool. This is a good example to start using gOcad since it is an undeformed simple stratiform mineralized body with the following (sub)horizontal units to include in the 3D model: terrain surface, coverage unit, FPA phosphate unit (main ore) and FPB carbonate-phosphate unit (secondary ore). The workflow can be summarized in the following sequence of steps: Starting a Project in gOcad and Importing Data; Visualizing the Objects and Preparing Data for Modeling; Creating a Structural Model. Add Horizon Data; Build Horizon Surfaces; Creating Volumes. Building a 3D mineral deposit grid; Modeling ore geochemical properties by kriging estimation. At the end, cumulative ore and grade curves are calculated showing mineral resources.
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BibTeX Reference
@inproceedings{FerreiraGM2009,
abstract = { This work is the first attempt to generate an output with Gocad software by the recently created 3D Geologic Modeling research group of CICEGe research centre (from FCT/UNL, Portugal). The objective of this work is to generate a 3D geologic model of the morphology and grades of the Farim-Saliquinhé sedimentary phosphate mineral deposit, located at Guiné-Bissau. The model uses borehole data and previous studies carried by BRGM and Sofremines, and the gOcad software as the main tool. This is a good example to start using gOcad since it is an undeformed simple stratiform mineralized body with the following (sub)horizontal units to include in the 3D model: terrain surface, coverage unit, FPA phosphate unit (main ore) and FPB carbonate-phosphate unit (secondary ore). The workflow can be summarized in the following sequence of steps: Starting a Project in gOcad and Importing Data; Visualizing the Objects and Preparing Data for Modeling; Creating a Structural Model. Add Horizon Data; Build Horizon Surfaces; Creating Volumes. Building a 3D mineral deposit grid; Modeling ore geochemical properties by kriging estimation. At the end, cumulative ore and grade curves are calculated showing mineral resources. },
author = { Ferreira, Antonio M. AND Charifo, Gilberto AND Chichorro, Martim AND Kulberg, Jose C. AND Almeida, Jose A. },
booktitle = { Proc. 29th Gocad Meeting, Nancy },
title = { 3D geologic model of FARIM-SALIQUINHE phosphates mineralization. },
year = { 2009 }
}