LICENSING OF THE RIGHT TO USE SUBSURFACE RESOURCES IN ORDER TO DEVELOP OIL AND GAS FIELDS ON THE CONTINENTAL SHELF OF NORWAY: EXPERIENCE OF LEGAL REGULATION

<p>The work presents the results of applying SIMULIA Abaqus's capabilities to solve problems related to infrastructure development in the development of oil and gas fields on the continental shelf. The primary attention is paid to the stability of the load-bearing structures of infrastructure facilities. When developing oil and gas fields located in the continental shelf, several geomechanical problems not typical for onshore fields arise. First of all, there is a need to construct a detailed model of the mechanical properties of the upper layers of bottom sediments in conditions of limited data on these properties. This limitation of data is caused by the complexity and cost of engineering drilling, which in other conditions provides the necessary information regarding the properties of the upper layers of sediments. Current study describes the proposed set of methods for studying the mechanical properties of the upper layers of bottom sediments using sampling. It is shown that the process of bottom sampling itself makes it possible to estimate the mechanical properties of bottom sediments. Quantitatively, such estimations can be made based on a numerical solution of the contact problem of gravity corer indentation into visco-elastoplastic medium, the specific rheological properties of which are a priori unknown. The possibility of determining the possible values of these properties from the data obtained in the sampling process (the dependence of the acceleration of the contact point on time) is demonstrated in the study with solution of the inverse problem.</p>

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Principal features of the continental shelf oil and gas resources development

Proceedings of OilGasScientificResearchProjects Institute SOCAR ◽

10.5510/ogp20210100483 ◽

2021 ◽

pp. 78-82

Author(s):

D.A. Mirzoev ◽

Keyword(s):

Continental Shelf ◽

Oil And Gas ◽

Gas Production ◽

Oil And Gas Production ◽

Oil And Gas Fields ◽

Oil And Gas Resources ◽

The Russian Federation ◽

Offshore Oil And Gas ◽

Gas Fields ◽

Offshore Oil

According to forecast estimates, the depletion of continental oil and gas fields of the Russian Federation is 30 - 50%, and the fields of the continental shelf are less than 1%. Therefore, the main volumes of growth of reserves, oil and gas production in the fuel and energy complex system should be planned at the expense of resources and reserves of the continental shelf. The article considers the principal features of development of oil and gas fields of the continental shelf and criteria determining types of offshore oil and gas fisheries.

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Kutei Basin oil bearing sand reservoirs mapping using integrated seismic methods

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/873/1/012050 ◽

2021 ◽

Vol 873 (1) ◽

pp. 012050

Author(s):

I M Easwara ◽

D S Ambarsari ◽

S Sukmono ◽

S Winardhi ◽

E Septama ◽

...

Keyword(s):

Oil Sands ◽

Oil And Gas ◽

Total Porosity ◽

Depositional Facies ◽

East Kalimantan ◽

Oil And Gas Fields ◽

Impedance Inversion ◽

The Right ◽

Gas Fields ◽

Upper Slope

Abstract The Lower Kutei Basin which contains several giant oil and gas fields is located on the East Kalimantan, Indonesia. This paper discusses the identification and mapping of oil-filled reservoirs and their depositional facies by integrating seismic stratigraphy, attributes, and AI (Acoustic Impedance) inversion methods. The log data cross-plots show that AI can be used to distinguish oil-sands from wet sands and shale, and to derive the total porosity of the sands. However, AI and amplitude values are greatly affected by the oil, porosity and tuning effects, hence they cannot be used to identify the facies containing the oil-bearing sands. Therefore, to map the facies containing the oil-filled sands, the AI map is combined with the variance and sweetness maps. It can be seen clearly from the variance and sweetness maps that the oil-sands suggested by the AI map are contained in a narrow and elongate meander-like geometry which is typical of channel facies. The variance and sweetness maps suggest that there are two channels in the study area. To determine which channel is thicker, spectral decomposition RGB map was made. The result suggests that the right channel is more prospective as it associates with thicker sand deposits. The combination of variance, sweetness and RGB maps strongly indicate that the channels in the study area are in upper-slope environment, and the thicker oil-sands are located in the eastward of the study area.

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