Development of a methodology for modeling the yield of synthetic oil using pyrolytic parameters of the organic matter of rocks from the Bazhenov formation

Dmitriy A. Mett LLC "LUKOIL-Engineering" Moscow Dmitrij.Mett@lukoil.com
Tat'yana N. Nikolaeva LLC "LUKOIL-Engineering" Moscow Tatyana.Nikolaeva@lukoil.com
This article presents a new approach to simulating thermal gas effects using the CMG STARS software. The essence of the proposed approach is the direct consideration of various hydrocarbonand organic complexes in the geological and hydrodynamic model. This approach allows taking into account the geochemical parameters obtained on the basis of core and geophysical studies, in addition, there is a significant decrease in the computation time.
Materials and methods
Hydrodynamic modeling
Results
We have developed technique for modeling the yield of synthetic petroleum using the pyrolytic parameters of the organic matter of rocks from the Bazhenov formation.
Conclusions
The presented approach allows to carry out a direct incorporation of geochemical studies in a full-scale geological-hydrodynamic model. Such scheme makes it possible to significantly accelerate the calculation of the thermal gas effect. With the presented approach, in spite of the generalization of some parameters, the detailed description of the thermal gas process in the conditions of the "large" model is substantially improved.
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bazhenov formation laboratory tests hydrodynamic model thermal gas method geochemistry