Methodology for substantiating distribution of layers of geological model 3D grid
UDC: 539.3+532.546+550.832+004.8
DOI: -
Authors:
POTEKHIN DENIS V.
1,2,
BARYAKH VADIM A.2,
PLOTNIKOV ANDREY V.2,
GALKIN SERGEY V.1
1 Perm National Research Polytechnic University, Perm, Russian Federation
2 LUKOIL-Engineering, Perm, Russian Federation
Keywords: three-dimensional grid, 3D grid layers, geological and statistical section, sandiness, correlation coefficient, terrigenous deposits, Artinsky stage, Lower Permian deposits
Annotation:
When constructing a geological 3D model, the main step is to create a three-dimensional grid associated with the spatial arrangement of cells, reproducing the features of the geological structure of the object. An important sub-step of this process is the vertical distribution of the layers of the three-dimensional grid. The correct vertical structure of the grid ensures the creation of a correct and reliable geological model. To date, there is no unified methodology for the optimal choice of cutting layers of a three-dimensional grid. The development of effective approaches to vertical grid modeling remains a priority task aimed at improving the accuracy and reliability of the geological structure of the models. The paper develops a methodology for substantiating the construction of layers in a three-dimensional grid.
Bibliography:
1. Zakrevskij K.E. Geologicheskoe 3D-modelirovanie: оbzor. – M.: Izdatel’stvo “Maska”, 2009. – 376 s. – EDN AEOOAO.
2. Osnovy geologicheskogo modelirovaniya: uchebnoe posobie / V.A. Belkina, S.R. Bembel’, A.A. Zaboeva, N.V. San’kova. – Tyumen’: Tyumenskij industrial’nyj universitet, 2015. – 162 s.
3. Konnov D.A. Litologo-facial’naya model’ bakinskih otlozhenij Astrahanskogo Prikaspiya // Neftegazovye tekhnologii i ekologicheskaya bezopasnost’. – 2024. – № 1. – S. 27–33.
4. Pat. 2542874 C1 Ros Federaciya, MPK G06T 17/00. Sposob adaptivnoj razbivki trekhmernoj setki na sloi pri sozdanii trekhmernyh cifrovyh geologicheskih modelej plastov / A.A. Kolesnichenko; zayavitel’ i patentoobladatel’ A.A. Kolesnichenko. – № 2013146133/08; zayavl. 15.10.2013; opubl. 27.02.2015.
5. Zelenovskaya A.S., Izicin A.M., Panina S.A. Vybor geometrizacii setki trekhmernoj geologicheskoj modeli i sravnenie metodov raspredeleniya kollektora v karbonatnyh zalezhah // Sbornik nauchnyh trudov TatNIPIneft’. Tom Vypusk LXXXVI. – M.: ZAO “Izdatel’stvo “Neftyanoe hozyajstvo”, 2018. – S. 22–25.
6. Modelirovanie raspredeleniya vyazkosti plastovoj nefti na permokarbonovoj neftyanoj zalezhi Usinskogo mestorozhdeniya na osnove tekhnologii mashinnogo obucheniya / D.V. Potekhin, A.V. Plotnikov, A.L. Yuzhakov, S.V. Galkin // Trudy Rossijskogo gosudarstvennogo universiteta nefti i gaza imeni I.M. Gubkina. – 2023. – № 3 (312). – S. 43–55. – DOI: 10.33285/2073-9028-2023-3(312)-43-55
7. Geohimicheskie processy nalozhennogo epigeneza pri formirovanii vodoneftenasyshchennosti permokarbonovoj zalezhi / D.V. Potekhin, A.V. Plotnikov, S.V. Galkin, L. Van // Burenie i neft’. – 2024. – № 12. – S. 84–89.
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